FG00075
Keesun
FG00075
Availability: | |
---|---|
Quantity: | |
The 800-900MHz Fiberglass Omni-Directional Antenna with an N Male connector is engineered specifically for reliable, long-range wireless communication in the critical sub-GHz frequency bands. This band (including 868 MHz and 915 MHz ISM/LoRa, or 800 MHz cellular/PMR) is ideal for achieving maximum range and superior signal penetration, making this antenna the definitive choice for Unmanned Aerial Vehicle (UAV) Command and Control (C2) links, telemetry, and low-rate data transmission.
Built with rugged, weather-resistant fiberglass, this antenna ensures mission success in the most demanding operational environments.
This antenna is a powerhouse of RF engineering, merging high durability with precise electrical performance to guarantee exceptional range and stability for UAV applications.
Feature | Specification | Benefit for UAV/UAS |
Frequency Band | 800-900 MHz (e.g., 868/915 MHz) | Optimal for maximum range extension and excellent penetration through foliage and urban clutter. |
Radiation Pattern | Omni-Directional | Provides a full 360-degree horizontal coverage, ensuring the connection remains stable regardless of the drone's orientation or flight path relative to the ground station. |
Antenna Type | High-Gain Fiberglass | Maximizes signal reception and transmission, pushing the limits of BVLOS (Beyond Visual Line of Sight) operations. |
Connector | N Male | Offers a secure, low-loss, and waterproof connection directly to ground station equipment or durable feeder cables. |
Radome Material | Industrial-Grade Fiberglass | Provides exceptional resistance to UV exposure, moisture, wind loading, and vibration typical of field deployment. |
The low-frequency operation (800-900 MHz) is a critical advantage, as lower frequencies naturally diffract better around obstacles and suffer less attenuation over distance compared to higher bands like 2.4 GHz or 5.8 GHz. This physical property makes this specific antenna ideal for maintaining a crucial link integrity when terrain or structures pose a challenge. Furthermore, the high-quality N Male connector guarantees minimal insertion loss, transferring maximum power from the transmitter to the antenna element.
The robust construction and electrical characteristics of this antenna make it perfectly suited for two primary roles: UAV-mounted telemetry and Ground Control Station (GCS) communication.
This antenna is the link backbone for long-distance C2 communications.
BVLOS Enablement: By operating in the sub-GHz band, the antenna ensures the pilot maintains control far beyond the traditional limits, legally and operationally facilitating long-range utility inspections (pipelines, power lines) and large-area surveillance.
Anti-Interference Robustness: The reliable, narrow bandwidth operation in the 800-900 MHz ISM bands provides a dedicated channel that is less susceptible to the congestion and noise found in common Wi-Fi frequencies, thereby increasing the reliability of critical flight commands.
Stable Telemetry: It provides a continuous, low-latency pathway for sending vital telemetry data (GPS position, battery status, altitude) back to the GCS, which is essential for safety and regulatory compliance.
When deployed on the ground station side, this antenna maximizes the operational radius of the UAV fleet.
Fixed Site Efficiency: Its omni-directional pattern means the ground station does not need complex rotor systems or tracking software, simplifying setup and allowing the GCS to simultaneously communicate with multiple UAVs in the surrounding airspace.
Rapid Deployment Capability: The durable fiberglass design allows for quick mast or tripod mounting in the field. The heavy-duty radome ensures that the antenna can be repeatedly deployed and retrieved without damage to the sensitive internal elements.
Integration Flexibility: The standard N Male connector is compatible with a vast array of industrial-grade RF cables and surge suppressors, allowing easy integration into existing or newly built GCS kits, ensuring a clean and protected signal path to the flight controller.
The combination of long range, superior penetration, and industrial reliability makes this antenna indispensable for professional Unmanned Aircraft Systems (UAS) operations across various high-value sectors.
Oil & Gas Pipeline Monitoring: Drones equipped with this antenna can inspect vast stretches of infrastructure where maintaining a signal over challenging, remote terrain is vital for real-time fault detection and safety reporting.
Search and Rescue (SAR): During disaster response, when speed and reliability are paramount, the antenna ensures C2 links are never compromised, even when operating over dense forest or through partially collapsed structures.
Agricultural Surveying: For large-scale precision farming, drones can cover hundreds of acres, relying on the extended 800-900MHz range to maintain a link for automated flight path adjustments and data synchronization.
Security and Border Patrol: Ensures an uncompromised, covert link for surveillance drones operating over long distances in complex, built-up, or natural environments where high-frequency signals often fail.
Choosing the 800-900MHz Fiberglass Omni-Directional Antenna is a strategic decision for any organization committed to pushing the boundaries of professional UAV operations. It’s not just an antenna; it’s the rugged, reliable link that turns BVLOS possibilities into operational realities, delivering superior range and guaranteed connection stability when every command matters. It is the definitive component for ensuring system efficiency and mission success in the sub-GHz communication space.
The 800-900MHz Fiberglass Omni-Directional Antenna with an N Male connector is engineered specifically for reliable, long-range wireless communication in the critical sub-GHz frequency bands. This band (including 868 MHz and 915 MHz ISM/LoRa, or 800 MHz cellular/PMR) is ideal for achieving maximum range and superior signal penetration, making this antenna the definitive choice for Unmanned Aerial Vehicle (UAV) Command and Control (C2) links, telemetry, and low-rate data transmission.
Built with rugged, weather-resistant fiberglass, this antenna ensures mission success in the most demanding operational environments.
This antenna is a powerhouse of RF engineering, merging high durability with precise electrical performance to guarantee exceptional range and stability for UAV applications.
Feature | Specification | Benefit for UAV/UAS |
Frequency Band | 800-900 MHz (e.g., 868/915 MHz) | Optimal for maximum range extension and excellent penetration through foliage and urban clutter. |
Radiation Pattern | Omni-Directional | Provides a full 360-degree horizontal coverage, ensuring the connection remains stable regardless of the drone's orientation or flight path relative to the ground station. |
Antenna Type | High-Gain Fiberglass | Maximizes signal reception and transmission, pushing the limits of BVLOS (Beyond Visual Line of Sight) operations. |
Connector | N Male | Offers a secure, low-loss, and waterproof connection directly to ground station equipment or durable feeder cables. |
Radome Material | Industrial-Grade Fiberglass | Provides exceptional resistance to UV exposure, moisture, wind loading, and vibration typical of field deployment. |
The low-frequency operation (800-900 MHz) is a critical advantage, as lower frequencies naturally diffract better around obstacles and suffer less attenuation over distance compared to higher bands like 2.4 GHz or 5.8 GHz. This physical property makes this specific antenna ideal for maintaining a crucial link integrity when terrain or structures pose a challenge. Furthermore, the high-quality N Male connector guarantees minimal insertion loss, transferring maximum power from the transmitter to the antenna element.
The robust construction and electrical characteristics of this antenna make it perfectly suited for two primary roles: UAV-mounted telemetry and Ground Control Station (GCS) communication.
This antenna is the link backbone for long-distance C2 communications.
BVLOS Enablement: By operating in the sub-GHz band, the antenna ensures the pilot maintains control far beyond the traditional limits, legally and operationally facilitating long-range utility inspections (pipelines, power lines) and large-area surveillance.
Anti-Interference Robustness: The reliable, narrow bandwidth operation in the 800-900 MHz ISM bands provides a dedicated channel that is less susceptible to the congestion and noise found in common Wi-Fi frequencies, thereby increasing the reliability of critical flight commands.
Stable Telemetry: It provides a continuous, low-latency pathway for sending vital telemetry data (GPS position, battery status, altitude) back to the GCS, which is essential for safety and regulatory compliance.
When deployed on the ground station side, this antenna maximizes the operational radius of the UAV fleet.
Fixed Site Efficiency: Its omni-directional pattern means the ground station does not need complex rotor systems or tracking software, simplifying setup and allowing the GCS to simultaneously communicate with multiple UAVs in the surrounding airspace.
Rapid Deployment Capability: The durable fiberglass design allows for quick mast or tripod mounting in the field. The heavy-duty radome ensures that the antenna can be repeatedly deployed and retrieved without damage to the sensitive internal elements.
Integration Flexibility: The standard N Male connector is compatible with a vast array of industrial-grade RF cables and surge suppressors, allowing easy integration into existing or newly built GCS kits, ensuring a clean and protected signal path to the flight controller.
The combination of long range, superior penetration, and industrial reliability makes this antenna indispensable for professional Unmanned Aircraft Systems (UAS) operations across various high-value sectors.
Oil & Gas Pipeline Monitoring: Drones equipped with this antenna can inspect vast stretches of infrastructure where maintaining a signal over challenging, remote terrain is vital for real-time fault detection and safety reporting.
Search and Rescue (SAR): During disaster response, when speed and reliability are paramount, the antenna ensures C2 links are never compromised, even when operating over dense forest or through partially collapsed structures.
Agricultural Surveying: For large-scale precision farming, drones can cover hundreds of acres, relying on the extended 800-900MHz range to maintain a link for automated flight path adjustments and data synchronization.
Security and Border Patrol: Ensures an uncompromised, covert link for surveillance drones operating over long distances in complex, built-up, or natural environments where high-frequency signals often fail.
Choosing the 800-900MHz Fiberglass Omni-Directional Antenna is a strategic decision for any organization committed to pushing the boundaries of professional UAV operations. It’s not just an antenna; it’s the rugged, reliable link that turns BVLOS possibilities into operational realities, delivering superior range and guaranteed connection stability when every command matters. It is the definitive component for ensuring system efficiency and mission success in the sub-GHz communication space.