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We see more security teams under pressure as drones become smarter, cheaper, and harder to stop. Many modern UAVs no longer rely on simple remote control signals. Instead, they use long-range, low-power communication and stable frequency hopping.
Traditional jammers struggle to keep up. LoRa + VCO + GaN jamming modules offer a new way to disrupt control, telemetry, and data links with higher efficiency, stability, and adaptability—without redesigning entire counter-drone systems.
We’ll show how this technology combination is shaping the future of modern counter-UAS systems.
Why Is LoRa+VCO Jamming Modules More Effective Against Modern UAVs?
Our anti-drone module integrates LoRa, VCO, GAN, and Circulator technologies, delivering high performance, modular flexibility, and reliable drone signal suppression.
|
Features |
Benefits |
|
LoRa Control |
Long-range, low-latency signal control for flexible deployment in complex environments. |
|
VCO (Voltage Controlled Oscillator) |
Precise frequency tuning across 2.4G / 5.2G / 5.8G bands for multi-protocol interference. |
|
GAN Amplifier |
High gain (≥53dB) and high output power (≥200W/53dBm) for wide coverage and stability. |
|
Circulator |
Isolates input and output signals, protecting the module and ensuring reliable operation. |
Flexible Integration for Real-World Deployment
Legacy systems are often rigid and site-specific, while modern UAV threats require coverage across vehicles, fixed installations, and portable operations. LoRa + VCO modules are designed for plug-and-play, cross-platform integration, allowing security teams to quickly deploy the right configuration for any scenario.
|
Deployment Type |
Traditional Systems |
LoRa + VCO Modules |
|
Fixed installation |
✔ |
✔ |
|
Vehicle-mounted |
✖ |
✔ |
|
Portable / temporary |
✖ |
✔ |
|
Setup time |
Hours |
Minutes |
This flexibility reduces operational stress and lets teams respond faster to emerging threats.
Scalable Architecture That Evolves with UAVs
Modern drones evolve rapidly—becoming smaller, flying in swarms, and using encrypted or frequency-hopping links. Static, one-time systems quickly fall behind. Modular LoRa + VCO + GaN units scale incrementally, allowing new frequency bands, power levels, and functionalities to be added without replacing hardware.
|
Expansion Dimension |
Traditional System |
LoRa + VCO + GaN Modules |
|
Frequency coverage |
Fixed |
Expandable |
|
Power output |
Predefined |
Stackable |
|
Functional roles |
Locked |
Add-on modules |
This approach turns counter-UAS architecture into a continuously evolving system, keeping pace with UAV advancements while controlling costs.
| Module Quantity / Frequency | 10–49 pcs | 50–99 pcs | 100–499 pcs | 500–999 pcs | 1000+ pcs | Typical Use / Notes |
|---|---|---|---|---|---|---|
| 300–400 MHz | $40–50 | $35–45 | $30–40 | $25–35 | $20–30 | Testing, pilot projects, small deployments |
| 400–500 MHz | $40–50 | $35–45 | $30–40 | $25–35 | $20–30 | Long-range UAV links, vehicle/mobile use |
| 500–700 MHz | $45–55 | $40–50 | $35–45 | $30–40 | $25–35 | Modular C-UAS systems, fixed/mobile sites |
| 700–1020 MHz | $50–60 | $45–55 | $40–50 | $35–45 | $30–40 | Perimeter protection, cost-optimized rollout |
| 1150–1260 MHz | $55–65 | $50–60 | $45–55 | $40–50 | $35–45 | Specialized UAV data/control channels |
| 1420–1450 MHz | $55–65 | $50–60 | $45–55 | $40–50 | $35–45 | Navigation & telemetry disruption |
| 1560–1620 MHz | $60–70 | $55–65 | $50–60 | $45–55 | $40–50 | Navigation-assisted UAVs, integrated systems |
| 2400–2500 MHz | $60–75 | $55–70 | $50–65 | $45–60 | $40–55 | FPV video, data downlink, short-range comms |
| 5150–5350 MHz | $80–100 | $70–90 | $60–80 | $55–75 | $50–70 | Event-level security, high-bandwidth links |
| 5725–5850 MHz | $90–120 | $80–110 | $70–95 | $60–85 | $55–80 | FPV / HD video, large-area coverage |
Rapid Deployment Equals Immediate Defense
UAV threats can appear suddenly and unpredictably. Large, monolithic systems often take hours to deploy, leaving critical areas exposed. LoRa + VCO + GaN modules can achieve operational readiness in minutes—just connect power and the control interface.
|
Deployment Type |
Time to Protection |
|
Large fixed system |
Hours to days |
|
Modular LoRa + VCO + GaN |
Minutes |
Speed itself becomes a critical defensive capability, allowing teams to neutralize threats almost immediately.
Non-Disruptive Upgrades for Business Continuity
Many organizations hesitate to upgrade due to high costs, downtime, or infrastructure risks. Modular jamming units overlay existing systems without replacement, using current CCTV, network, and rack infrastructure.
|
Consideration |
Modular Advantage |
|
CAPEX |
Incremental investment |
|
Business continuity |
No downtime |
|
Compliance |
Minimal system change |
This allows security teams to modernize defenses without interrupting operations, maintaining compliance and protecting investments.
Conclusion
LoRa + VCO + GaN modules are not just a technical improvement—they redefine how counter-UAV defenses are designed. They combine flexibility, scalability, rapid deployment, and non-disruptive upgrades to address modern UAV threats effectively.
Modern UAV defense is no longer about building bigger systems—it’s about building smarter, modular, and adaptable architectures that evolve as threats evolve.
