Command & Protect Critical Airspace
Factory-direct C-UAS modules tailored for prisons, judicial sites, and highly secure facilities—zero blind spots, full-spectrum coverage.
CNC Shielded Enclosure
Industrial-grade CNC aluminum enclosure ensures stable operation in high EM interference environments while providing efficient cooling and mechanical protection.
SDR Signal Source
Core control module supporting full-spectrum signal generation and customized jamming for non-standard frequencies with extremely low-latency control.
High-Power Amplifier
Output power ranges from 10W–1000W, supporting 100% CW duty cycle continuous operation for deterministic suppression even at perimeter edges.
The "Three Fatal Flaws" of Perimeter Defense
Summarizing the systemic collapses faced by prison integrators: frequency infiltration (unstoppable), physical failure (unsustainable), and signal backlash (uncontrollable). In the judicial sector, 1% uncertainty equals a 100% regulatory disaster.
Frequency Infiltration
Illegal UAVs bypass standard frequency ranges effortlessly, leaving traditional fixed-frequency defense systems completely blind.
Physical Failure
Equipment burns out or heavily throttles power under 24/7 full-load operation, instantly collapsing the physical defense line.
Signal Backlash
Aggressive wideband jamming disrupts internal command radios, paralyzes facility WiFi, and triggers severe public complaints.
Fragmentation and Concealment of Frequencies
Ultra-Low & High Frequency
Exploits non-standard frequencies below 400MHz or above 10GHz to seamlessly bypass conventional monitoring grids.
Protocol "Black Box" Control
Leverages open-source ELRS or customized encrypted protocols, rendering traditional brute-force noise jamming completely ineffective.
Rapid Frequency Hopping
Threat drone firmware updates rapidly on a weekly basis, causing fixed-frequency hardware to become obsolete instantly upon deployment.
Physical Gaps in the Spectrum Net
Silent Traversal
Drones exploit frequency gaps to fly over perimeter walls entirely unobstructed, even when systems operate at maximum power.
Interception Range Nullified
Even a mere 1MHz frequency offset causes total energy misalignment, instantly collapsing the protective radius to zero.
Broken Custody Chain
Contraband is precisely delivered through invisible spectrum loopholes, leading to catastrophic administrative accountability.
SDR Self-Evolving
Full-Spectrum Architecture
On-Demand Customization
Custom-builds the physical RF core based on your local measured threat data within 4 weeks, ensuring exact spectrum alignment and zero coverage gaps.
Protocol-Level Precision
Utilizes a Dual-PHY SDR architecture to demodulate and intercept non-standard threat protocols with pinpoint accuracy in real-time, eliminating blind sweeps.
Secure Offline Protocol Updates
Rapidly deploy new C-UAS interference profiles via the physical Type-C port. Ensure your hardware stays adaptive to emerging drone protocols and frequency-hopping threats while maintaining strict air-gapped security.
Physical Breakdown Under 24/7 Heavy-Duty Operation
100% Duty Thermal Accumulation
High-power components generate devastating internal heat during mandatory 24/7 continuous operation within sealed, non-ventilated environments.
Long-Perimeter Energy Dilution
Kilometers of complex perimeter wiring cause severe signal attenuation, drastically shrinking the actual RF transmission power reaching the terminal ends.
Outdoor Physical Corrosion
Prolonged exposure to UV rays and extreme humidity leads to rapid connector oxidation and circuit drift in cheaply manufactured, non-CNC casings.
"Battlefield Misfires" at Critical Moments
Thermal Power Throttling
Triggers thermal protection within 10 minutes, forcing extreme power reduction and shrinking the actual defense radius from 1.5KM to mere meters.
Irreversible Hardware Burnout
Physical antenna damage causes massive VSWR reflections, instantly and irreversibly burning through the core amplifier circuitry.
Out-of-Control OPEX
Excessive component failure rates drag integrators into an endless, financially crippling cycle of on-site repairs, completely eroding profitability.
True CW Industrial Matrix
Flexible Power Architecture
Employs 3rd-generation GaN technology to guarantee honest, unthrottled CW power output across extreme environments from -40°C to +70°C.
Heavy-Duty Precision CNC
Utilizes solid-milled aviation aluminum enclosures to provide ultimate thermal dissipation, safeguarding modules under continuous 100% duty cycle operations.
MIL-STD Military Validation
Subjects every single component to rigorous vibration, burn-in, and thermal cycling tests to guarantee flawless tactical reliability before deployment.
System Interference Backlash & Integration Bottlenecks
Electromagnetic Collateral Backlash
Brute-force high-power suppression inadvertently paralyzes internal guard communication radios and crucial facility WiFi networks, blinding the operators.
Internal Self-Excitation
Inadequate shielding allows high-energy output to feed back into the delicate signal source, triggering severe self-excitation and massive false alarm spikes.
Lengthy Closed-Protocol Development
Closed proprietary components deny low-level control access, forcing integrators to waste invaluable months on frustrating and unreliable joint debugging cycles.
Project Acceptance Failure & Legal Risks
When the underlying integration logic is flawed or devices conflict with each other, cascading acceptance disasters will erupt during the joint debugging phase. This leads not only to contract breaches but to an irreversible collapse of trust.
Police Communication Interruption
Intercepting drones knocks out internal regulatory communications, instantly triggering severe secondary security disasters within the facility.
Public Nuisance Complaints
Uncontrollable jamming boundaries heavily pollute surrounding civilian signals, triggering immediate public complaints and forced administrative shutdowns.
Missed Delivery Windows
Sluggish integration causes integrators to entirely miss strict acceptance deadlines, exposing them to massive financial compensation claims.
Zero-Conflict "Surgical" Precision Integration
Frequency Avoidance Logic
Executes sophisticated frequency avoidance algorithms using dynamic spectrum sensing. By deploying adaptive notch filters, it neutralizes hostile drone threats with surgical precision while leaving essential command radio channels and facility WiFi untouched.
EMI-Grade Cavity Isolation
Leverages aviation-grade precision CNC multi-cavity designs paired with aerospace RF absorbers. This physical architecture achieves ultimate electromagnetic isolation, pushing internal self-excitation to absolute physical zero for high-sensitivity detection.
Standard AT Commands & 28V Bus
Features a fully open standard API control protocol via RS422/Ethernet and a unified DC power ecosystem with a 24V-32V wide-input range (28V nominal). This highly standardized plug-and-play architecture eliminates complex custom coding and bulky external power converters entirely.
Standardized Integration Architecture
Eliminate engineering bottlenecks with a natively standardized physical and protocol layer. Designed for rapid deployment, zero power conversion losses, and seamless scalability.
Unified 28V Power Ecosystem
All core components are strictly standardized to a unified 28V DC input. This completely eliminates the need for bulky step-down converters, complex power distribution boards, or unstable voltage adapters in your rack, radically streamlining system power management.
- Zero DC-DC Conversion Losses
- Direct 28V DC Input Acceptance
- Radically Simplified Rack Wiring
Standard AT Command API
Fully open standard API control via serial or Ethernet connections. Designed for true plug-and-play integration, allowing engineers to rapidly deploy large-scale perimeter matrices without writing custom hardware drivers.
- Universal Serial / Ethernet Ready
- Up to 10-Device Daisy Chaining
- Zero Proprietary Drivers Needed
Precision CNC Manufacturing & Validation
CNC Aluminum Enclosure
Each component uses aviation-grade aluminum CNC machining, ensuring EMI shielding, thermal efficiency, and mechanical protection suitable for high-security perimeter environments.
Full-Process Lab Validation
Each component undergoes intensive vibration, aging, and temperature cycling tests before shipment to ensure stable operation under all extreme conditions.
Transparent Certification
One Device, One Report
Each delivered customized component comes with a measured performance report, including gain flatness, VSWR curves, and radiation patterns, ensuring full compliance with specifications.
No Black Box Customization
Customization does not mean opacity; configuration, performance, and validation process of each device are fully transparent for engineering integration and verification.
