2x20W PA IP-Mesh-Drohnen-Videodatensender und -empfänger 260 km

2x20W PA IP-Mesh-Drohnen-Videodatensender und -empfänger 260 km

Spezifikation

Radio Frequency Power: 2x20W
Arbeitsfrequenz: 1.3-1.5GHz (1300Mhz-1500Mhz)
Arbeitsstrom: 6.7A@DC 24-28V
Kanalbandbreite: 5/10/20/27 MHz
WaveForm: Mobile MIMO
MIMO technology: Raum-Zeit-Kodierung, räumliche Vielfalt, TxRx beamforming, spatial utilization
Modulationsmodus: TD-COFDM, BPSK/QPSK/16QAM/256QAM adaptive
Empfangssensibilität: -93@20MHz
Übertragungsverzögerung: <150Frau
Number of nodes: <32
Maximum number of hops: 8
Data rate: 1~30Mbps(20MHz)
Single-Hop-Kommunikationsentfernung: Line-of-sight distance 50~260km (transmission distance varies greatly depending on the usage method)
Communication mode: distributed centerless point-to-point/point-to-many/many-to-many/multi-hop relay, star/line/mesh/hybrid
Physical interface: 1x 100M Ethernet port
Measurement and control link data interface: 1x TTL/1x RS232
RF interface: SMA
Maße: 150×117×31mm
Equipment weight: 1011G
Shell structure: Aluminiumlegierung
Software interface: chinesisch, English, Russian optional, Russian default at startup

Zubehör

Weight and Size

Verbindung

Anpassbare Optionen

1. Frequenzband & Kanalkonfiguration

   • Operable frequency range (z.B., 1.4–1,5 GHz, 2.4 GHz, 5.8 GHz, usw.)

   • Number of channels and channel spacing

   • Regional regulatory compliance (FCC, CE, SRRC, usw.)

2. Übertragungsleistung & Reichweite

   • Adjustable RF output power (z.B., 100 mW, 2 W, 5 W, 10 W, 20 W or higher)

   • Maximale Übertragungsentfernung (z.B., 5 km, 10 km, 50 km, 100 km, 150 km, 200 km, 250 km, 300 km)

   • Mesh networking capabilities for multi-drone relay

3. Videoformat & Auflösung

   • Supported video inputs: HDMI, SDI, CVBS, IP camera stream

   • Output formats: HDMI, SDI, CVBS, IP/RTSP/UDP stream

   • Auflösung & Bildrate (z.B., 1080S. 60, 720S. 30, 640×480)

4. Netzwerk & Streaming Options

   • IP mesh topology (Stern, Punkt-zu-Punkt, Multi-hop)

   • Protokolle: RTSP, UDP, TCP, ONVIF compatibility

   • QoS and latency optimization

5. Antennenoptionen

   • Typ: omnidirektional, gerichtet, blade, whip

   • Gewinnen: z.B., 3 dBi – 15 dBi

   • Steckertyp: SMA, N-Typ, RP-SMA

   • Swappable antennas for different mission scenarios

6. Stromversorgung & Verbrauch

   • Input voltage range (z.B., 7–24 V DC)

   • Power consumption optimization

   • Onboard battery compatibility

7. Gehäuse & Umweltschutz

   • Form factor & Gewicht

   • Material & Robustheit (IP67, vibration-proof)

   • Temperaturbereich & environmental tolerance

8. Kontrolle & Operation Features

   • Remote on/off or video enable/disable

   • OSD (Bildschirmanzeige) customization

   • Firmware upgrade options

9. Integration & Kompatibilität

   • Compatible with drones, Bodenstationen, or third-party software

   • Integration with mission planning software (z.B., QGC, Missionsplaner)

   • Support for additional sensors or telemetry data

10. Optional Accessories & Add-ons

    • Montagehalterungen, vibration dampers

    • External antennas or repeater units

    • GPS modules or telemetry add-ons

How This Product is Used in UAV Wireless Communication

1. Echtzeit-Videoübertragung
   The module is mounted on the UAV to transmit HD video streams from onboard cameras (EO/IR, Thermal-, or gimbal cameras) back to the ground control station. Thanks to its IP Mesh networking, video remains stable even when drones fly beyond line-of-sight or in complex terrain.

2. Telemetrie & Control Data Link
   In addition to video, the module also transmits flight telemetry, GPS positioning, and sensor data to the ground station. Gleichzeitig, control commands (Uplink) such as mission updates or navigation adjustments are delivered back to the UAV. This creates a full-duplex bidirectional link.

3. Multi-UAV Swarm Operations
   In drone swarm missions, each UAV equipped with the module becomes a node in the mesh network. They share information and can relay each other’s data, creating a selbstbildend, self-healing communication web. This ensures connectivity even if one drone moves out of direct range.

4. Beyond Line-of-Sight (BLOS) Kommunikation
   By using relay or multi-hop networking, UAVs can extend communication range far beyond the direct drone-to-ground link. Zum Beispiel, one UAV closer to the ground station can relay the video/data of another UAV flying further away, maintaining reliable coverage.

5. High-Mobility Support
   The system is optimized for drones traveling at speeds up to 300 km/h, making it suitable for both fixed-wing UAVs (long-range reconnaissance) und multirotor drones (Überwachung, Inspektion, Notfallreaktion).

6. Secure Mission-Critical Applications
   Mit AES128 encryption, the module ensures that sensitive video and data streams are protected. This makes it ideal for Verteidigung, Strafverfolgung, disaster recovery, Grenzschutz, und Industrieinspektionen, where secure, interference-resistant communication is essential.

7. Scalable Ground Networks
   On the ground, multiple receivers, mobile command vehicles, or handheld terminals can all join the same IP Mesh network. Dies ermöglicht real-time video sharing among multiple operators without the need for central infrastructure.

Zusammenfassend: This IP Mesh UAV wireless video data transceiver module enables drones to transmit Video, Telemetrie, und Steuersignale simultaneously in a zuverlässig, sicher, and scalable mesh network. It is especially useful for Langstrecken-UAV-Missionen, swarm operations, and any scenario requiring stable communication in dynamic environments.

What is FHSS?

Dieses Modell wurde für die drahtlose Video- und Datenübertragung mit einer drahtlosen Zwei-Wege-Datenverbindung entwickelt (Frequenzsprung-Spreizspektrum) is a wireless communication technique in which the transmitter rapidly switches (or “hops”) between multiple frequency channels in a pseudo-random sequence. Both transmitter and receiver follow the same hopping pattern, so the communication link remains synchronized.

• Anti-Interference: Because the signal does not stay on a single frequency, it becomes much harder for interference or jamming to block communication.

• Sicherheit: The hopping sequence is typically encrypted, making it very difficult for unauthorized parties to intercept or disrupt the signal.

• Reliability: Even if one frequency is blocked or noisy, the system quickly hops to a cleaner channel, ensuring stable communication.

How This Product Uses FHSS

This UAV wireless video data transceiver module integrates FHSS-Technologie to improve performance in complex and hostile environments:

1. Automatic Frequency Hopping
   The module can hop across up to 110 MHz of spectrum within or between its supported frequency bands (566–678 MHz and 1420–1530 MHz). This ensures the link avoids congested or noisy channels.

2. Anti-Jamming Capability
   In drone missions where intentional jamming or high interference exists (z.B., urban areas or military scenarios), FHSS makes it much harder to disrupt the video/data transmission, keeping UAVs connected.

3. Erhöhte Sicherheit
   FHSS combined with AES128 encryption adds a double layer of protection — even if an adversary tries to intercept, they must predict both the hopping sequence and decrypt the data.

4. Stable UAV-to-Ground Links
   For UAVs moving at high speed (bis zu 300 km/h) or flying over long distances (bis zu 22 km without PA), FHSS helps maintain a robust connection despite changing signal conditions.

5. Seamless Mesh Integration
   In a multi-node IP Mesh network, FHSS ensures that every UAV and ground node can dynamically maintain stable links without being locked to a single vulnerable frequency.

Zusamenfassend: FHSS in this product ensures the drone’s wireless video and data link is sicher, störsicher, und zuverlässig, even in environments with heavy RF congestion or active jamming.

FAQ

1. Q: What is the maximum transmission range of this 2x20W PA IP mesh drone video data transmitter and receiver?
   EIN: Das long-range drone video data transmitter unterstützt a Sichtlinie distance of 50-260km, depending on antennas, Umfeld, Höhe, electromagnetic Interference and configuration.
   

2. Q: How much RF power does this long-range drone link output?
   EIN: It features a high-power 2x20W PA (Power Amplifier, Other power amplifiers can also be customized according to your project requirements), providing robust signal penetration for große Reichweite Anwendungen.
   

3. Q: What frequency band does this IP mesh drone system support?
   EIN: Das Arbeitsfrequenz range is 1.3-1.5GHz (1300MHz-1500MHz), offering good non-line-of-sight performance. Andere Frequenzen können ebenfalls entsprechend Ihren Projektanforderungen angepasst werden.
   

4. Q: What voltage does the 2x20W MIMO transmitter require?
   EIN: It operates on DC 24-28V with a typical Arbeitsstrom von 7EIN.
   

5. Q: What channel bandwidth options are available?
   EIN: Supports flexible Kanalbandbreite: 5MHz, 10MHz, 20MHz, allowing optimization for range vs. Datenrate.
   

6. Q: What type of waveform does this mesh video link use?
   EIN: It utilizes a Mobile MIMO waveform for robust performance in dynamic environments.
   

7. Q: What MIMO technologies are implemented?
   EIN: Fortschrittlich MIMO technology includes Raum-Zeit-Kodierung, räumliche Vielfalt, TxRx beamforming, and enhanced spatial utilization for reliability and range.
   

8. Q: What modulation schemes does this video data transmitter support?
   EIN: Eigenschaften TD-COFDM mit adaptive Modulation (BPSK/QPSK/16QAM/256QAM), automatically adjusting for best link quality.
   

9. Q: How sensitive is the receiver?
   EIN: Das receiving sensitivity is excellent, down to -93dBm @ 20MHz bandwidth.
   

10. Q: What is the latency of this drone video link?
    EIN: Das Übertragungsverzögerung ist sehr gering, <150Frau, suitable for real-time drone control and FPV.
    

11. Q: How many nodes can this IP mesh network support?
    EIN: The network supports up to <32 Knoten in a mesh topology.
    

12. Q: What is the maximum number of hops allowed?
    EIN: Data can be relayed through a maximum of 8 Hopfen innerhalb der Mesh-Netzwerk.
    

13. Q: What is the maximum data rate achievable?
    EIN: Das Datenrate reaches up to 30Mbps when using the 20MHz channel bandwidth.
    

14. Q: What communication modes are possible?
    EIN: It supports versatile communication modes: distributed centerless point-to-point, point-to-many, many-to-many, Multi-Hop-Relay, forming Stern, Linie, Netz, oder hybrid topologies.
    

15. Q: What physical network interface does it have?
    EIN: Es beinhaltet 1x 100M Ethernet port für IP data Konnektivität.
    

16. Q: What interfaces are available for telemetry and control links?
    EIN: Provides dedicated interfaces: 1x TTL und 1x RS232 für telemetry and control link data.
    

17. Q: What type of RF connector is used?
    EIN: Das RF interface is a standard SMA Stecker.
    

18. Q: What are the dimensions of the unit?
    EIN: Kompakt dimensions: 150×117×31mm.
    

19. Q: How much does the transmitter/receiver weigh?
    EIN: Das Gewicht der Ausrüstung Ist 1011G.
    

20. Q: What is the housing made of?
    EIN: It features a durable aluminum alloy shell structure for heat dissipation and protection.
    

21. Q: What languages does the software interface support?
    EIN: Das software interface Angebote chinesisch, English, and Russian Optionen, mit Russian default at startup.
    

22. Q: Is this system suitable for beyond-line-of-sight (BLOS) drone operations?
    EIN: Ja, es ist große Reichweite Fähigkeit (bis zu 260km LOS), MIMO technology (räumliche Vielfalt, beamforming), und mesh networking (Multi-Hop-Relay) make it ideal for BLOS operations.
    

23. Q: How does TxRx beamforming improve performance?
    EIN: TxRx beamforming focuses the RF signal directionally, significantly increasing link range, Datenrate, and resistance to Interferenz für die MIMO video link.
    

24. Q: Can this system relay video through multiple drones?
    EIN: Absolut. Es ist IP-Mesh capability supports Multi-Hop-Relay (bis zu 8 Hopfen) via intermediate nodes/drones, extending coverage.
    

25. Q: Does the adaptive modulation affect range?
    EIN: Ja. Under weak signal conditions, it adapts to more robust modulations like BPSK/QPSK, extending effective Reichweite at lower data rates. Strong signals use 256QAM for high speed.
    

26. Q: What is the typical application for this high-power link?
    EIN: Ideal für long-range drone Inspektion (Pipelines, Stromleitungen), Abbildung, Überwachung, suchen & Rettung, und IP video transmission where Zuverlässigkeit ist kritisch.
    

27. Q: How does spatial diversity help in a drone link?
    EIN: Spatial diversity uses multiple antennas to combat signal fading caused by reflections or obstructions, providing a more reliable MIMO link for moving Drohnen.
    

28. Q: Is this a point-to-point or mesh system?
    EIN: Es unterstützt beides! It can operate as a simple Punkt-zu-Punkt link or form a flexible, Selbstheilung IP mesh network mit many-to-many Kommunikation.
    

29. Q: What kind of antennas are recommended for maximum range?
    EIN: Richtantennen mit hoher Verstärkung (z.B., parabolic, Yagi) bei 1.3-1.5GHz are recommended for achieving the maximum 260km Sichtlinie Reichweite.
    

30. Q: Can it transmit HD video?
    EIN: Ja, Die Datenrate von up to 30Mbps (mit 20MHz Bandbreite) is sufficient for compressed HD or even multiple HD video streams over the IP-Ethernet Hafen.
    

31. Q: How does the distributed centerless network work?
    EIN: In distributed centerless Modus, all nodes are equal peers. Wenn ein Knoten ausfällt, Die Mesh-Netzwerk automatically re-routes data, enhancing Zuverlässigkeit without a single point of failure.
    

32. Q: What is the benefit of the aluminum alloy housing?
    EIN: Das aluminum alloy shell structure provides excellent heat dissipation for the 2x20W PA, electromagnetic shielding (EMI), and robust physical protection.
    

33. Q: Is this system compatible with standard drone autopilots?
    EIN: Ja, typically via the TTL oder RS232 measurement and control link interfaces for telemetry/command, und Ethernet für IP video Daten.
    

34. Q: How weather-resistant is the unit?
    EIN: Während die Aluminiumlegierung housing is robust, specific IP rating isn’t stated. Environmental sealing depends on the installation/application. Check manufacturer specs for sealing details.
    

35. Q: Does the low latency (<150Frau) support real-time drone control?
    EIN: Ja, <150ms transmission delay is low enough for responsive real-time manual control (FPV) and stable autonomous flight operations over the Fernverbindung.
    

36. Q: Can it operate in areas with RF interference?
    EIN: MIMO technology (beamforming, räumliche Vielfalt), adaptive Modulation, and the ability to select clean channels within 1.3-1.5GHz help mitigate Interferenz.

37. Q: What is TD-COFDM?
    EIN: TD-COFDM (Time-Domain Coded Orthogonal Frequency Division Multiplexing) is a robust modulation scheme combining error correction coding and multi-carrier transmission, ideal for mobile and große Reichweite wireless video links.
    

38. Q: How many video streams can it handle simultaneously?
    EIN: Limited by the max data rate (30Mbps) und Ethernet (100M) Hafen. It can handle multiple compressed HD streams depending on their individual bitrates and network load within the IP-Mesh.
    

39. Q: Is the 100M Ethernet port sufficient for video?
    EIN: For typical compressed drone video streams (H.264/H.265), 100M Ethernet is generally adequate, especially given the wireless Datenrate max is 30Mbps. It’s the wireless link, not Ethernet, that is usually the bottleneck for große Reichweite.
    

40. Q: Can I connect it directly to a laptop or ground station?
    EIN: Ja, via the Ethernet port for IP video/data und die RS232/TTL ports for serial telemetry/control to your ground station Software.
    

41. Q: What is the advantage of the 1.3-1.5GHz frequency?
    EIN: 1.3-1.5GHz offers a good balance: better penetration through foliage/buildings than higher bands, less congestion than 2.4GHz/5.8GHz, and longer wavelengths for große Reichweite propagation compared to higher bands.
    

42. Q: How does spatial utilization improve the link?
    EIN: Fortschrittlich spatial utilization techniques within the MIMO system maximize spectral efficiency, allowing higher data rates or more users within the same frequency band.
    

43. Q: Is special software needed to configure the mesh network?
    EIN: Ja, the device’s software interface (Chinese/English/Russian) is used to configure network topology (mesh/star/line), Frequenzen, bandwidth, Sicherheit, und MIMO Parameter.
    

44. Q: Can it be used for non-drone applications?
    EIN: Absolut. Suitable for any große Reichweite, Mobile, or fixed IP video/data link requiring hohe Leistung (2x20W), MIMO, Netz, und geringe Latenz, like vehicles, Boote, remote cameras.
    

45. Q: How does space-time coding enhance reliability?
    EIN: Raum-Zeit-Kodierung spreads information across multiple antennas and over time, providing redundancy. This significantly improves link reliability and error resistance in challenging fading environments for the MIMO system.
    

46. Q: Wie hoch ist der typische Stromverbrauch??
    EIN: Bei 28V, Die Arbeitsstrom Ist 6.7EIN, equating to approximately 188 Watt power consumption for the 2x20W PA Einheit. Plan power systems accordingly.
    

47. Q: Does it require licensing for the 1.3-1.5GHz band?
    EIN: Licensing requirements vary significantly by country. Operating a 2x20W transmitter in 1.3-1.5GHz almost always requires specific licenses. Consult local radio regulations (z.B., FCC, Ofcom, local authorities).
    

48. Q: Is it suitable for high-speed drone flights?
    EIN: Ja. Das Mobile MIMO waveform and technologies like beamforming und räumliche Vielfalt are designed to maintain stable links with fast-moving platforms like Drohnen.
    

49. Q: Can it transmit both video and telemetry data?
    EIN: Ja. IP video/data flows over the Ethernet Hafen. Critical telemetry/control data typically uses the dedicated low-latency TTL/RS232 measurement and control link.
    

50. Q: Where can I get technical support or purchase this system?
    EIN: Please contact the manufacturer or authorized distributors directly for Einkauf, detailed technical specifications, Unterstützung, und licensing guidance for this 2x20W PA IP Mesh Long-Range Drone Video Data Transmitter/Receiver.
    

51. Q: Was ist der Hauptzweck dieses Geräts??
    A1: It is used to realize IP Mesh network communication over a long distance (bis zu 300 Kilometer), and is suitable for multi-purpose wireless transmission such as video, Daten, and voice.
52. Q: Handelt es sich um ein vollständiges Peer-to-Peer-System??
    EIN: Ja, it includes a transmitter and a receiver, and can be expanded into a multi-point to multi-point Mesh network.
53. Q: Was ist 2x20W PA??
    EIN: It means that each channel is equipped with a 20W power amplifier, for a total of two channels (usually MIMO), which improves signal penetration and distance.
54. Q: Is the system a two-way communication or one-way?
    EIN: Supports full-duplex two-way IP data communication.
55. Q: Is it possible to transmit video and data at the same time?
    EIN: Ja, IP multiplexing is supported, including video streams, voice calls and control data.
56. Q: What is the longest communication distance?
    EIN: The maximum theoretical distance is 300 km (depending on LOS conditions, antenna gain and altitude).
57. Q: What is the supported transfer rate?
    EIN: Depending on bandwidth and link quality, up to 30–80 Mbps (per link).
58. Q: Does it support Mesh self-organizing network function?
    EIN: Ja, it supports multi-node automatic discovery, routing and relay functions.
59. Q: How does it perform in occluded environments?
    EIN: Performance degrades in non-line-of-sight conditions, so it is recommended to use a repeater station or high-gain antenna.
60. Q: Unterstützt das Gerät MIMO??
    EIN: Ja, usually 2×2 MIMO, which improves interference resistance and bandwidth efficiency.
61. Q: To achieve longer transmission distance and stronger anti-interference performance, can this transceiver support 2×80W power amplifiers?
    EIN: Momentan, it cannot support 2×80W. The maximum supported configuration is 2×40W, and the most commonly used option is 2×20W.