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Dipole antenna for FPV drone control 680–1200 MHz Aeronetix, SMA, 10 cm cable
Dipole antenna for FPV drone control 680–1200 MHz Aeronetix, SMA, 10 cm cable is designed for stable reception of control signals across a wide frequency range. The primary working range of 680–1130 MHz includes multiple sub-bands, allowing the antenna to be used with different control systems without the need to replace hardware.
Linear polarization and moderate gain provide uniform signal reception without strong directivity, making it suitable for mobile platforms. The compact design and SMA connector ensure compatibility with most receiver modules and allow easy integration into existing systems.
We are a team of veterans
We work with control systems in real-world conditions where signal stability directly affects platform control. We understand the importance of frequency flexibility and reliable performance in challenging environments.
We select antennas based on practical use cases, operating range, and environmental conditions. Our approach is focused on delivering stable and predictable communication.
Technical specifications
| Parameter | Value |
|---|---|
| Type | Dipole receiving antenna |
| Frequency range | 680–1130 MHz |
| Gain | 2 dBi |
| Polarization | Linear |
| Dimensions | 170 × 130 × 1.5 mm |
| Weight | 15 g |
| Connector | SMA |
| Cable length | 80 mm |
| Application | Control signal reception |
| Manufacturer | Aeronetix |
Comment / comments
The antenna supports multiple sub-band configurations with different SWR characteristics, allowing flexible operation across a wide frequency spectrum. This is useful when adjusting system frequencies or switching between different setups.
The 2 dBi gain ensures stable reception without the need for precise alignment. The sub-1 GHz range provides improved signal penetration through obstacles, making it effective in environments with terrain challenges and interference.
Who it is suitable for
Military
Suitable for control systems where signal stability and frequency flexibility are critical. Provides reliable reception in complex terrain and interference conditions. Enables maintaining control over medium distances. Used in mobile and stationary systems. Suitable for field deployment.
FPV operators and technical units
Suitable for receiver modules with SMA connection. Provides stable signal without complex tuning. Allows operation across different frequency configurations. Used in various system setups. Suitable for everyday operational use.
Engineers and system developers
Used in testing and development of control systems. Enables operation across a wide frequency range. Suitable for laboratory and field testing. Ensures stable and repeatable performance. Used in prototyping.
Control and data transmission systems
Suitable for receiving nodes in various technical solutions. Provides stable signal when properly matched. Used in mobile systems. Enables operation in interference-heavy environments. Suitable for specialized configurations.
Enthusiasts and experimenters
Suitable for building universal control systems. Enables work across a wide frequency range. Provides stable results when properly configured. Used for testing and tuning. Offers flexibility in system design.