300–2700MHz
Wideband RF Core
Built with ultra-wideband coverage from 300 to 2700MHz, this RF module series seamlessly suppresses critical drone control and data-link frequencies. Secure your airspace with stable, field-ready integration backed by factory-direct engineering support.
Why Traders Slow Projects Down
For wideband RF projects, the real risk is not only performance uncertainty — it is choosing a supplier who cannot support engineering communication, issue diagnosis, or delivery control.
No RF Engineer Access
Traders lack direct engineering channels. They only relay questions instead of providing immediate solutions, which weakens your technical accuracy, slows communication, and delays critical project decisions.
No Diagnostic Capability
Brokers operate without professional testing labs or VNA tools. When integration fails, they cannot locate root causes, leaving you to suffer from endless replacement cycles and unresolved field issues.
No Delivery Control
Third-party suppliers don't own the production lines. They cannot prioritize batch scheduling or enforce strict QC timing, causing unavoidable delays once your project enters procurement and acceptance.
Stop risking your project timeline on unverified middlemen.
See The Factory DifferenceFactory Control from Design to Delivery
As the source manufacturer, we connect your project directly with engineering, validation, production, and QC under one controlled workflow.
Direct Engineer Access
Speak directly with the RF engineers who designed the modules. We swiftly resolve complex interface logic and antenna matching queries, ensuring rapid and accurate system integration.
In-House Diagnostic Workflow
Our fully-equipped R&D lab performs wideband validation and thermal checks. We accurately pinpoint root causes using load simulation, drastically reducing downtime during deployment.
Controlled Delivery
Every step from BOM locking to final QC happens in our facility. We strictly manage production rhythms, keeping your projects securely on time for seamless procurement and acceptance.
Ready to integrate with a true source manufacturer?
View Core Modules300–2700MHz Power Options
Choose the output level that fits your platform, from portable suppression systems to high-power fixed-site and vehicle-mounted deployments.
HZ3002700-30W
30 WattsEngineered for extreme mobility. This compact and lightweight module maximizes efficiency for handheld, manpack, and portable C-UAS systems where footprint and battery draw matter most.
HZ3002700-50W
50 WattsA perfectly balanced solution delivering robust wideband suppression. Ideal for tactical portable defense units and compact vehicle-mounted platforms requiring stable, extended coverage.
HZ3002700-100W
100 WattsDesigned for standard vehicle-mounted integration. It provides stronger continuous output and aggressive frequency coverage to secure moving convoys against varied drone links.
HZ3002700-150W
150 WattsBuilt for fixed-site architectures and multi-antenna arrays. This module handles higher duty-cycle demands, offering relentless protection for perimeters and facility zones.
HZ3002700-200W
200 WattsThe ultimate high-power wideband suppression engine. Strategically deployed for critical infrastructure, border defense, and airport perimeters requiring absolute long-range dominance.
Need a custom power configuration or interface?
Request CustomizationFrom Concept to Deployment: 4-Week Sprint
Our streamlined development process delivered field-ready modules in record time without compromising quality or performance.
Requirements Lock
- Client technical review sessions
- Frequency allocation mapping
- Interface specification freeze
- Thermal envelope analysis
Rapid Prototyping
- Schematic design completion
- PCB layout optimization
- Component procurement (parallel)
- Simulation validation
Build & Validate
- Prototype assembly
- RF performance verification
- Environmental stress screening
- Client witness testing
Batch & Ship
- Production run (50 units)
- 100% RF burn-in testing
- Documentation package
- Secure logistics delivery
Urgent deployment timeline? We specialize in accelerated development cycles.
Verified Across the Full Band
Every module must prove its true performance across the entire 300–2700MHz working band, not just at isolated frequency points.
Full-Band Power Sweep
Modules are continuously monitored across the full 300–2700MHz band. Forward power, reverse power, and gain flatness are measured to verify stable output at every frequency. This ensures authentic wideband performance and full jamming coverage, avoiding misleading single-point peaks..
Continuous Burn-In
Modules are operated under full electrical load (50dBm) for 12 hours per cycle at room temperature. Repeated temperature cycling between -55 °C and +85 °C is applied, with each low/high-temperature pair lasting 2 hours. A total of 5 burn-in cycles are completed to simulate prolonged field operation and verify long-term stability, thermal endurance, and consistent output..
Vibration & Mechanical Stress Testing
Modules are mounted on a vibration testing system simulating field and vehicle-mounted conditions. Frequency range: 15 Hz to 2000 Hz, amplitude PSD 0.04 g²/Hz. Three axes (X, Y, Z) are tested, 2 hours per axis, ensuring structural robustness against shocks, vibration, and mounting stress. Confirms module integrity, connector stability, and consistent electrical performance under mechanical stress.
Operational Testing under Extreme Temperatures
Modules are powered and operational throughout temperature cycles. Low-temperature operation: -55 °C storage, then powered at -40 °C for 2 h. High-temperature operation: +85 °C storage, then powered at +60 °C for 2 h. Additional stability check: modules remain static for 4 h post-test to measure electrical performance recovery. Ensures modules maintain consistent output, thermal management, and electrical stability throughout extreme environmental conditions.
Demand reliable data for your system architecture.
View Test ReportsInside Our Workflow
See how we validate reliability and maintain rigorous manufacturing control inside the source factory to deliver uncompromising quality.
Aging & Vibration
Modules undergo severe burn-in and vibration testing. By simulating extreme field conditions, we eliminate weak units before they ever reach your project.
In-House CNC
Precision-machined housings and heat sinks fabricated internally. Total control over structural parts allows for rapid customization and superior thermal management.
Want to see our manufacturing capabilities up close?
View Production ProcessMaster of Mid-to-High Band:
What Exactly Are We Suppressing?
Engineered specifically for the 300–2700 MHz spectrum, our core modules neutralize the most agile and evasive multi-band drones in modern tactical and industrial environments.
FPV & Racing Drone Defense
Rogue FPV drones and racing drones rely on low- to mid-frequency bands (ELRS, TBS Crossfire, FHSS) for beyond-visual-line-of-sight (BVLOS) control. Leveraging a 200–300 MHz instantaneous bandwidth and 10 μs ultra-fast switching, our modules instantly lock onto and suppress these agile frequency-hopping links, ensuring interception before drones breach protected perimeters.
Tactical Multi-Rotor Neutralization
Patrol and reconnaissance drones often use mid-frequency telemetry for command/control. By supporting FM, OFDM, and multi-protocol jamming, our wideband modules sever hostile coordination networks in real time, preventing evasive maneuvers during patrols or engagement.
Commercial / High-Speed Mitigation
High-speed delivery drones rely on telemetry, video feeds, and high-frequency FPV channels. The 300–2700 MHz modules provide full-band suppression, ensuring uninterrupted protection of critical infrastructure (substations, telecom hubs, logistics centers), eliminating blind spots that narrower bands might leave.
Airports & Restricted Zones
Airports, prisons, and government zones require multi-layer coverage. Our wideband modules create a comprehensive electromagnetic suppression field, neutralizing drones regardless of protocol or frequency hopping, eliminating blind spots and supporting mission-critical airspace control.
Not sure which power level fits your scenario?
Consult an RF ArchitectWhat to Avoid Before You Buy
Wideband modules may look identical on paper, but real system risks lurk inside poor testing standards, thermal bottlenecks, and inconsistent batching.
⚠ Single-Point Claims
Many suppliers only verify power at a single frequency. In reality, their module's performance collapses across the rest of the band, leaving deadly blind spots in your defense.
♨ Thermal Collapse
Inadequate thermal design leads to massive power droop or sudden shutdown during continuous duty cycles, causing your entire C-UAS system to fail when it matters most.
⚡ Weak Protection
Modules lacking high-speed VSWR and reflected-power protection will instantly fry themselves if an antenna is damaged or a cable connection fails in the field.
📉 Batch Drift
Uncontrolled factories secretly swap internal components after prototype approval. This means your mass production units will fail the validation tests you already passed.
Don't let hidden risks ruin your project integration.
Secure Your SourcingProtection Built In
Designed not merely for raw output power, but engineered for survivability, batch consistency, and seamless project acceptance.
🛡 VSWR Protection
Integrated high-speed protection logic instantaneously reduces output when reflected power occurs, completely preventing amplifier burnout from antenna mismatches.
🌡 Thermal & Voltage
Sophisticated thermal tracking and over-voltage safeguards proactively throttle or shut down the module to survive extreme environments and unstable grid conditions.
🔒 Locked BOM
Once the golden sample is approved, we lock the Bill of Materials. Components, structure, and testing criteria remain untouched, ensuring perfect consistency for mass production.
Looking for long-term supply stability?
Partner With UsBeyond Supply
We empower your integration process with deep engineering knowledge, transparent production, and flexible customization inside one source-factory system.
RF R&D Team
Your requirements are reviewed by veteran RF engineers who deeply understand interface logic, antenna matching, and system-level troubleshooting.
Controlled Production
All critical manufacturing stages stay securely within our factory walls. We dictate the schedule, reducing lead-time risks and maintaining elite consistency.
Custom Support
Need a specific footprint? We rapidly customize power outputs, cooling structures, RF connectors, and control interfaces to fit your unique chassis.
Ready to elevate your C-UAS system's reliability?
Contact Our FactoryTrusted in Security Projects
Built for system integrators supporting critical protection missions across the globe. Our modules deliver unyielding performance in the most demanding field environments.
Why Integrators Stay
Project teams value stable communication, consistent batches, and profound engineering support that continues long beyond shipment.
Reports & Certificates
Questions Before Integration
Common questions from system integrators before RF module selection, quotation, and deployment.
Can't find the answer?
Our engineering team is ready to help you with custom specifications, antenna matching, and overall system planning.
Ask an Engineer DirectlyCan the 300–2700MHz range be customized?
Can output power be customized?
Which connectors do you support?
Do you support RS485 or D-Sub control?
Can you help with antenna matching?
Is VSWR protection included?
How do you ensure batch consistency?
What is the typical lead time?
Send Your RF Requirements
Direct access to engineering architects. We analyze thermal dissipation, interface protocols, and RF efficiency specifically for your 300-2700MHz projects.
Engineering Assessment
Review of submission for interface compatibility and thermal feasibility within 4 hours.
Technical Proposal
CAD dimensions, link budget calculations, and factory-direct quotation within 24 hours.
Rapid Prototyping
Immediate fabrication and laboratory validation before global express dispatch.
GaN-on-SiC Core
High efficiency power density for continuous mission operation.
MIL-STD Testing
Vibration and thermal cycling verified for tactical field environments.
300-2700MHz
Seamless full-band coverage optimized for drone data-links.
Protocol Ready
Validated with mainstream SDR sources and digital interfaces.