Wideband SDR Module.
Full-protocol SDR modules directly from the source factory. 100MHz-6GHz continuous coverage to equip global integrators with zero-blind-spot protocol simulation.
Access CAD & ManualsNative SDR Chip
Radar Scanning
Omni-Directional
Critical Risks of Sourcing from Traders
Unpredictable Lead Times & Inflated Costs
Traders add hidden markups and completely rely on outsourced production lines. When supply chain disruptions occur, your defense project faces uncontrollable delivery delays and sudden price hikes.
Zero Engineering Accountability
Middlemen lack in-house R&D. When critical integration issues arise in the field, you are trapped in an endless loop of delayed communication, with absolutely no direct access to the engineers who built the hardware.
The "BOM Lottery" Quality Crisis
Trading companies frequently switch upstream suppliers to maximize their own margins. Your prototype might pass, but mass-production batches often contain cheap substitute components that fail government acceptance.
Pillars of Manufacturing Certainty
Supply Chain Mastery & Cost Efficiency
As the actual manufacturer, we eliminate middleman markups and fully control our assembly lines. We guarantee stable lead times and long-term pricing locks, entirely shielding your project from global supply disruptions.
Direct R&D Dialogue
Bypass the traditional sales firewall. Your technical team gets direct 1-on-1 access to our core engineers for rapid SDK debugging and custom protocol development, slashing troubleshooting time by over 80%.
The "Locked BOM" Guarantee
We understand the uncompromising nature of defense acceptance. Once your prototype is approved, we permanently lock the core BOM. Absolutely no silent component swaps, ensuring flawless batch-to-batch consistency.
System Integration Cannot Wait.
Lengthy production lead times stall critical defense contracts. As a source factory, we maintain a robust inventory of standardized Commercial Off-The-Shelf (COTS) modules, securely packed in anti-static shielding, ready for immediate dispatch.
- Eliminate the anxiety of uncertain manufacturing queues.
- Rapidly scale your deployment with identical, verified units.
- Dramatically shorten your project delivery cycles to outpace competitors.
The Flagship SDR Duo
HZS1006000-F1
The Ultimate Digital Source. Equipped with a powerful dual-PHY chip architecture delivering up to 200MHz real-time bandwidth. Designed for massive scale, it allows seamless cascading of up to 10 units for overwhelming spectrum dominance.
HZSDR1006000-A01
Built for the Battlefield. Engineered exclusively for the harshest field conditions. It guarantees flawless, uninterrupted operation in extreme environments, effortlessly handling temperatures ranging from -40°C to +70°C.
| Key Parameter | HZS1006000-F1 (Flagship) | HZSDR1006000-A01 (Tactical) |
|---|---|---|
| Frequency Coverage | 100MHz – 6000MHz (Continuous Full Spectrum) | |
| Real-Time Bandwidth | 200MHz | 100MHz (200MHz Combined) |
| Operating Voltage | DC: 28-32V | DC: 9–32V |
| Control Interface | RS422 / Native API | RS422 / Native API |
The Generational Leap:
Why SDR Crushes Legacy DDS
The DDS Bottleneck
Traditional Direct Digital Synthesizers (DDS) are heavily constrained by rigid hardware architectures. They suffer from agonizingly slow frequency hopping rates and are generally limited to emitting single-point sweeping signals. This outdated approach leaves significant temporal gaps, allowing modern, agile frequency-hopping drones to effortlessly bypass your defensive perimeter.
The Agile SDR Advantage
Software Defined Radio (SDR) represents a paradigm shift. Utilizing highly programmable FPGA logic, our SDR modules execute instantaneous, wideband frequency hopping at microsecond speeds.
Unlike DDS, SDR can simultaneously generate multi-protocol jamming signatures across the entire 100M-6GHz spectrum, effectively creating an inescapable electromagnetic net that paralyzes complex, evasive drone swarms the millisecond they enter the perimeter.
The Dimensional Strike
Dual-PHY Real-Time Dominance
Engineered with an advanced dual-PHY architecture enabling independent or synchronized RF outputs. Achieving up to 200MHz combined real-time bandwidth (100MHz per channel), this immense capacity instantly blankets the spectrum, leaving zero time-gap vulnerabilities for high-speed, frequency-hopping drone swarms.
100MHz–6000MHz Unbroken Spectrum
Delivers continuous, ultra-fine adjustable frequency coverage spanning the entire 100MHz to 6000MHz range. Coupled with a strict output frequency accuracy of < 0.1MHz, our digital source guarantees a seamless, unbreakable lock on multi-spectrum aerial threats without a single blind spot.
Native & Custom Protocol Neutralization
Natively generates digital modulation for specific threats like ELRS, TBS Crossfire, Ocusync, and Lightbridge. Beyond pre-loaded codes, our SDR architecture supports custom 16-bit complex signal (.cs16) IQ file uploads via USB, granting integrators ultimate tactical flexibility to adapt to future protocols.
Absolute Purity & Dynamic Gain
Outputs aggressively clean signals with an out-of-band rejection typical value of >40 dB. Paired with a dynamic range of >25dB and up to 35 levels of adjustable gain, it perfectly protects your backend power amplifiers from thermal overload while focusing maximum energy on the target.
The "Violent" Aesthetics of Physical Engineering
Pure Copper CNC Dissipation
High-power continuous jamming generates extreme heat. We integrate a massive, precision-CNC machined pure copper baseplate. This guarantees maximum thermal stability, completely preventing thermal throttling when the system operates at peak capacity during critical engagements.
Ultra-Compact Payload
We compressed maximum SDR capability into a ruthless 120g, 105mm x 50mm footprint. This hyper-dense architecture maximizes space utilization, allowing seamless integration into restrictive tactical backpacks and lightweight drone payloads without sacrificing an ounce of RF performance.
Multi-Protocol SDR Strike Matrix
High-performance software-defined radio core with 22 built-in digital waveforms, delivering absolute dominance over modern tactical and commercial UAV links.
FPV Tactical Links
Supported Protocols
- 0x01TBS_868
- 0x02TBS_915
- 0x04ELRS_868
- 0x05ELRS_915
- 0x06ELRS_2450
- 0x08TBS+ELRS_A
Waveform Logic
Digital source generates synchronized CSS/LoRa interference signals to neutralize 868/915MHz and 2.4GHz remote links.
Neutralizes high-speed kamikaze drones and tactical scouting units.
Commercial Video Links
OFDM Spectrum Bandwidth
- 0x0AOFDM_5M
- 0x0BOFDM_10M
- 0x0COFDM_20M
- 0x0DOFDM_70M
- 0x0EOFDM_100M
Waveform Logic
Adaptive noise injection targeting Ocusync and Lightbridge enterprise protocols with spectral bandwidth matching.
Terminates 4K HD video transmission and command channels of industrial UAVs.
Navigation Systems
Satellite Coverage
- 0x09GNSS_70M (GPS L1/L2, BeiDou, GLONASS)
Waveform Logic
Wideband 70MHz interference signals covering critical positioning bands to induce coordinate drift or signal loss.
Forces drones into ATTI drift or triggers safety landing protocols.
Agile Waveforms
Sweep & Custom Logic
- 0x00CW (Carrier)
- 0x12LFM_5M
- 0x14LFM_20M
- 0x16LFM_100M
- .cs16Custom IQ Upload
Waveform Logic
Linear Frequency Modulation (LFM) and user-defined .cs16 IQ injection for rapid adaptation to non-standard threats.
Software-defined flexibility for field-reconfiguration against emerging UAV signatures.
Why Your Jammers Are Going "Deaf"
The Analog Vulnerability
- Frequency Blind Spots: Narrow bandwidth leaves a critical 1% gap—resulting in 100% mission failure against modern jumping drones.
- Hardware Burnout: Cluttered, inferior signals force expensive backend PAs into thermal overload, causing catastrophic hardware death.
- Protocol Deafness: Outdated modules cannot generate complex ELRS or Crossfire codes, leaving encryption links entirely unbroken.
The SDR Digital Absolute
- Zero-Gap Locking: 100MHz real-time bandwidth mathematically eliminates the time-gap necessary for drones to escape.
- PA Protection Protocol: >40 dB out-of-band rejection ensures pure signal delivery, drastically extending your amplifier's lifespan.
- Code-Level Decimation: Actively generates specific disruption codes tailored for OcuSync, dismantling encrypted comms instantly.
Industry & Export Qualifications
Your Source of Technological Certainty.
We are not mere component traders. As China's premier source factory for core anti-drone modules, we serve as the ultimate technical ally for global integrators operating in highly complex electromagnetic environments.
Resolving the Integrator's Dilemma
Real-Time Protocol Evolution
Relying on our massive R&D team, we continuously analyze and write algorithms for new hopping protocols. Combined with our hardware's native 200MHz dual-channel bandwidth, we permanently terminate the "blind spot escape" vulnerability.
Zero-Burnout Signal Purity
We establish the standard for out-of-band rejection (>40 dB). Our SDR modules output aggressively clean signals, ensuring your expensive power amplifiers never suffer from thermal overload or clutter-induced hardware destruction.
Vertical Integration & Locked BOM
We provide pre-matched "SDR + PA + Antenna" Lego-style ecosystems to boost your integration efficiency by 70%. Crucially, we enforce a strict "Do Not Change" protocol on internal components, guaranteeing absolute batch consistency.
Tested in the Most Hostile Environments
From the complex electromagnetic borders of Eastern Europe to high-security urban airspace in the Americas, RF SKYPOWER modules are the trusted core for defense networks worldwide.
Voices from the Defense Frontlines
Marek
Defense Tech Director, Poland
"We needed absolute suppression against FPV kamikaze hopping threats. RF SKYPOWER's SDR module delivered exactly that. The 100MHz real-time bandwidth erased all hopping escape windows. Most importantly, their BOM consistency promise meant our mass production ran flawlessly without a single frequency offset."
Carlos
Security Project Lead, Mexico
"System compatibility was severely delaying our airport clearance projects. Partnering with a source factory changed everything. The pre-matched combo ecosystem and standardized RS422 interfaces slashed our on-site debugging time by 70%. Their export compliance documentation made government acceptance seamless."
Engineering-Grade Integration FAQ
How is thermal management handled during high-bandwidth jamming?
Our modules generate extreme power density. We integrate real-time temperature sensors monitored via our host software. We mandate thermal pads tightly coupled with the CNC heatsink, keeping output ripple stable at <1 dB to permanently protect overall lifespan.
Can one system control arrays of 10+ SDR modules seamlessly?
Yes. Native support for the RS422 serial bus allows you to assign unique IDs to each module. A single bus line enables synchronized or independent control of frequency, gain, and modes, radically simplifying complex vehicular or fixed-station wiring.
How does gain control prevent power amplifier destruction?
We offer a dynamic range of >25 dB with 35-level high-precision subdivision. When initiating the PA, integrating from level 0 progressively upwards entirely eliminates transient over-power spikes that instantly destroy expensive GaN chips.
How does your protocol library adapt to rapidly evolving FPV threats?
Our digital SDR architecture allows for instantaneous deconstruction. We preload 20+ jamming codes (TBS, ELRS, OcuSync). As new threats emerge, our engineers write fresh algorithms within 7-10 days, deployable directly via remote firmware flashing.
Deploy Advanced SDR Defense Today
Ready to integrate high-precision jamming capabilities? Consult with our engineering team for specialized firmware tuning, protocol support, or custom hardware configurations for your specific operational needs.