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FPV drone control transmitter antenna 400–435 MHz Aeronetix, 5–6 dBi, SMA
FPV drone control transmitter antenna 400–435 MHz Aeronetix, 5–6 dBi, SMA is designed for stable transmission of control signals in the low-frequency range. Operation within 400–435 MHz provides strong signal penetration through obstacles and reliable communication over medium and long distances.
The directional radiation pattern with a 90° / 120° beamwidth allows covering a wide sector without the need for precise alignment. The 5–6 dBi gain ensures efficient signal transmission with minimal losses even in challenging environments.
We are a team of veterans
We work with control systems in real-world conditions where link stability determines mission success. We understand the advantages of low-frequency bands for long-range and reliable communication in complex terrain.
We select antennas based on real operational needs, distances, and environmental conditions. Our approach focuses on delivering stable and predictable performance.
Technical specifications
| Parameter | Value |
|---|---|
| Type | Transmitting antenna |
| Frequency range | 400–435 MHz |
| Gain | 5–6 dBi |
| Beamwidth | 90° / 120° |
| Dimensions | 185 × 115 × 10 mm |
| Weight | 28 g |
| Connector | SMA |
| Cable length | 80 mm |
| Application | Control signal transmission |
| Manufacturer | Aeronetix |
Comment / comments
The low-frequency range provides maximum signal penetration through obstacles and terrain, making it effective for long-distance operation.
The directional design reduces interference impact and improves transmission efficiency. The wide coverage sector allows flexible operation without strict positioning requirements.
Who it is suitable for
Military
Suitable for control systems where stable transmission over long distances is critical. Provides reliable communication in complex environments. Enables operation in terrain with obstacles and interference. Used in both mobile and stationary systems. Suitable for field deployment.
FPV operators and technical units
Suitable for transmitting modules in the 400–435 MHz range. Provides stable signal without precise aiming. Allows operation within a wide coverage sector. Used in various system configurations. Suitable for improving control link stability.
Engineers and system developers
Used in building and testing control systems. Provides predictable performance within the defined frequency range. Suitable for lab and field testing. Ensures stable operating characteristics. Used in development.
Control and communication systems
Suitable for transmitting nodes in various technical solutions. Provides stable signal when properly positioned. Used in mobile systems. Enables operation in interference-heavy environments. Suitable for specialized applications.
Enthusiasts and professional users
Suitable for building custom control systems. Enables operation in the low-frequency range. Provides stable results when properly configured. Used for testing and tuning. Offers flexibility in system design.