High-performance systems engineered for consistent, dependable operation under critical conditions.
See It in Action
High-performance systems engineered for consistent, dependable operation under critical conditions.
See It in ActionBuilt for Urban Venues
Targeting urban venues and temporary perimeters, we provide full-spectrum custom capabilities. From 10W handheld units to 1000W fixed matrices, our source factory delivers deterministic RF backbones for global integrators.
Incorporating a 200MHz real-time bandwidth processing architecture, natively supporting concurrent multi-protocol suppression to instantly neutralize swarm threats, ensuring impenetrable airspace defense.
View detailed SDR specifications.Utilizing 3rd-Gen GaN technology to deliver honest 100% duty cycle output, eliminating thermal collapse risks and extending continuous operational stability during critical missions.
Module Thermal CalculatorA single cylinder antenna covering 400MHz to 6000MHz, drastically reducing physical footprint and setup time, making rapid field deployments effortless and efficient.
Antenna Sizing CalculatorDue to the critical nature of urban venues, temporary deployments face high-frequency dismantling and dense signal environments. If components merely chase laboratory parameters while ignoring these harsh engineering realities, the defense system will inevitably collapse at the critical moment:
High-frequency dismantling and rough handling rapidly degrade standard RF interfaces. Just dozens of insertions cause severe impedance shifts, secretly choking your transmission power before the mission even begins.
Temporary setups often provide volatile power while demanding maximum output. Modules with poor thermal efficiency cannot survive this, inevitably suffering from rapid heat accumulation and catastrophic thermal shutdowns during critical engagements.
Every venue presents a chaotic mix of mismatched trusses and temporary poles. Relying on makeshift bracket solutions or zip-ties not only severely delays rapid deployment but also introduces fatal mechanical instability into the RF system.
How to eliminate temporary integration failures?
Explore Robust Engineering StandardsDue to the unique nature of urban venues and touring events, integrators first face severe physical wear and environmental compatibility challenges brought by high-frequency mobile deployments:
Equipment constantly rotates between temporary venue sites, requiring rapid, high-pressure assembly and teardown. Standard commercial RF interfaces fail to endure this continuous physical abuse. After just dozens of insertions, micro-abrasions lead to severe impedance mismatches and unpredictable VSWR spikes. This degrades signal integrity and quietly suffocates your transmission power before the mission even starts.
Varying truss sizes demand extreme mounting compatibility to avoid critical deployment delays.
Decameters of cabling to antennas cause severe power loss, drastically shrinking the defense perimeter.
Are physical constraints limiting your defense capabilities?
View The Consequences of Hardware FrailtyWhen these physical limits are ignored, the weakest link manifests on-site, causing the entire defense chain to completely collapse:
Interface wear causes severe power drops, turning a 100W module into a weak emitter and compromising your airspace.
Mismatched screws force engineers to use zip-ties on-site, ruining delivery schedules and professional image.
Poor contact spikes VSWR, sending thermal energy backward and instantly frying expensive custom amplifiers.
To eradicate the physical risks of temporary urban deployments, we built a component lineup specifically optimized for mobile missions from the engineering ground up, ensuring every setup is as smooth as building blocks:
Instead of commercial connectors that succumb to micro-abrasions, our wideband antennas feature industrial-grade N-J interfaces. Engineered to endure the continuous physical abuse of rapid assembly and teardown, they maintain a strict VSWR < 2.0. This prevents the unpredictable impedance mismatches that secretly suffocate transmission power, ensuring your signal integrity remains flawless across endless temporary deployments.
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We eliminate the chaos of non-standard brackets. Every signal source and PA is housed in a solid-milled aviation aluminum enclosure featuring a pre-drilled, universal mounting matrix. This guarantees extreme mounting compatibility, adapting instantly to varying truss sizes and temporary poles. By discarding unstable makeshift solutions, you achieve rock-solid mechanical stability and completely avoid critical deployment delays.
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To combat the severe power loss caused by routing decameters of temporary coaxial cabling, our architecture utilizes an intelligent SDR digital gain tuning mechanism. Integrators can issue standard AT commands to dynamically compensate for cable attenuation on the fly. This guarantees that the final radiated power at the antenna terminal remains exactly at the required threshold, effectively preventing your defense perimeter from shrinking.
Learn MoreUpgrade your temporary perimeter defense.
Contact R&D EngineersUrban venues and live events are flooded with massive commercial WiFi, broadcast signals, and tens of thousands of mobile frequencies. While defending against drones, the crude "full-band sweeping" of inferior equipment brews disaster.
Venue environments are heavily saturated with intricate civilian and broadcast signals. Defense systems must operate in extremely tight spectrums without collateral interference.
Low-end amplifiers generate excessive out-of-band spurious emissions while jamming, aggressively bleeding unwanted electromagnetic junk into adjacent crucial frequencies.
Traditional analog sweepers cannot differentiate targets, blanketing the area with interference that disables your own security communications before neutralizing drones.
Spectrum pollution brings not only a decline in security capabilities but also secondary disasters and legal reputation crises that integrators cannot afford.
Signal distortion deforms jamming waveforms. Despite radiating massive raw power, it fails to block drone protocols, creating a dangerous illusion of security.
Impure spectrum bleeds heavily into internal networks, crashing civilian mobile data and severing the wireless feeds of live broadcast teams instantly.
Uncontrolled electromagnetic radiation triggers mass audience complaints, exposing system integrators to harsh regulatory investigations and crippling legal liabilities.
A pure spectrum is paramount. The SDR intelligent brain paired with the extremely pure output of 3rd-Gen GaN builds an interference-free electromagnetic ecological safe zone for you.
Engineered with top-tier GaN transistors, our amplifiers achieve exceptional linearity and suppress spurious emissions strictly below -60dBc. This generates incredibly clean RF waveforms that effectively neutralize target drone bands while completely sealing off out-of-band leakage, eliminating the collateral "noise floor" pollution typical of inferior commercial jammers.
Powered by an advanced dual-channel architecture, our SDR core delivers an instantaneous bandwidth of up to 200MHz. It natively parses and suppresses complex, frequency-hopping protocols (like Ocusync, ELRS, and Crossfire) via digital filtering. This allows integrators to precision-carve "Safe Bands," actively securing the airspace while guaranteeing uninterrupted VIP and live broadcast communications.
Crude analog sweepers fail venue regulations by crippling civilian infrastructure. Our precision energy deployment ensures strict adherence to stadium-grade EMC standards. By guaranteeing that local WiFi, media wireless video feeds, and emergency bands remain completely untouched, your integration project easily passes rigorous radio management reviews, permanently eliminating operational and legal liabilities.
Ready to integrate safe and pure RF power?
Get SDR Module Technical ManualHarsh temporary installation environments invisibly devour your RF power, breaking the module's intended stable thermal equilibrium.
Temporary event security mandates decameters of cabling, enforcing massive transmission loss and choking raw output power before it ever reaches the antenna.
Operating inside sealed waterproof boxes under the blazing sun forces module temperatures past critical limits, triggering rapid and destructive heat accumulation.
Standard modules strictly designed for room temperatures inevitably break their delicate power equilibrium when confronting the dual strike of soaring thermal resistance and cable attenuation.
Losing the heat ratio balance turns even a hundred-watt amplifier into a greenhouse toy. When high temperatures and long cables strike simultaneously, it directly tears a gap in your venue's core defense perimeter.
Unmanaged thermal dynamics induce rapid frequency drift within 15 minutes, disastrously misaligning your jamming target and letting drones slip through unseen.
With attenuated power and drifted frequencies, hostile drones navigate unimpeded over VIP stands and stages, exposing catastrophic flaws in your air defense architecture.
Combined with severe cable attenuation, the thermal breakdown plunges a 100W source output down to a feeble 30W at the antenna, tearing a massive gap in your perimeter.
To completely resolve the "fatal thermal drift" caused by sun exposure and temporary cabinet heat accumulation, we poured our efforts into micron-level physical craftsmanship to rebuild an unbreakable power and thermal equilibrium.
Each PA is encased in a custom-milled aviation aluminum enclosure. This massive thermal mass base eliminates heat accumulation at the hardware level, protecting internal chips.
Optimized screw positioning ensures micron-level physical contact between heat sources and the shell. This superior thermal transfer ratio prevents hotspots and ensures even cooling.
Built for extreme stability, it maintains honest 100% duty cycle continuous wave output even in sun-exposed cabinets. This permanently eliminates frequency drift and maintains a rigid defense perimeter.
After ensuring an impeccable hardware foundation, we completely cleared integration obstacles for venue security integrators. Highly consistent physical and protocol standards make your temporary event deployment as simple and rapid as snapping LEGO blocks together.
The entire lineup natively supports standard 28V industrial voltage. This eliminates complex internal power conversions, slashing potential electrical failure points.
Equipped with standard AT command control via industrial serial ports. This allows software teams to seamlessly integrate and command the hardware within days, minimizing development overhead.
Natively supports plug-and-play daisy chaining for up to 10 units. This scales coverage across massive venues without complex networking, simplifying large-area deployment.
We refuse outsourcing for core processes. All RF shielding cavities, reinforced connectors, and high-power motherboards are molded in our own 100,000-class cleanroom and high-precision CNC center, pushing physical protection to the absolute limit.
All shielding cavities are crafted in our in-house precision CNC center. This strict physical control guarantees absolute screw hole alignment and structural robustness.
Advanced assembly techniques secure RF connectors firmly to the chassis. This ensures excellent contact reliability without degradation, even after 500+ rapid field insertions.
Every production batch undergoes rigorous tri-axis mechanical vibration testing. This confirms the physical integrity of solder joints against severe transportation shock and rough handling.
Buying high-spec hardware shouldn't be like buying a lottery ticket. As a source manufacturer, we have the confidence to use authentic, objective Vector Network Analyzer (VNA) measured data to dispel all your concerns before shipping.
Every delivered custom component comes with a measurement report tied 1:1 to its SN. It includes full-band VSWR, distortion curves, and real energy conversion efficiency tables.
The report includes detailed spectrum analyzer scans, proving extremely low out-of-band spurious levels with visible data, ensuring commercial communications on-site are never collaterally damaged.
Through unalterable instrument screenshots, we prove to you: every RF board you receive uncompromisingly meets or exceeds stadium-grade EMC requirements.
Bypass tedious distribution channels and connect directly with our core RF engineering team. Secure highly matched, proprietary integration components designed for mission-critical operations.
Discuss exact frequency bands, stringent power specs, and tight deployment deadlines directly with our senior RF architects.
Submit your physical constraints today and receive a comprehensive viability assessment and accurate quotation within 24 hours.
