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- Gain: 9 dBi
- Beamwidth: 65° / 65° H/V
- External dimensions: 123x123x13mm
- Plastic strap mount
11,46
EUR
including 23.00% VAT
- Gain: 9 dBi
- Beamwidth: 65° / 65° H/V
- External dimensions: 123x123x13mm
- Mounting to the mast ø19 - 54 mm
12,02
EUR
including 23.00% VAT
- Energy gain: 16.5 ± 0.8 dBi
- Beam width: 22°/22°
- Cable connector: UF-L
- Internal dimensions: 309 x 309 x 88 mm / External dimensions: 326 x 326 x 113 mm
- Polarization: Vertical and horizontal
- Energy gain: 14 dBi ±0.5
- Beam width: 32/32°
- Cable connector: UF-L
- External dimensions: 203 x 203 x 65 mm / Internal dimensions: 186 x 186 x 53 mm
- Polarization: Horizontal and vertical
- Energy gain: 14 dBi ± 0.5
- Beam width: 32/32°
- Cable connector: UF-L
- External dimensions: 203 x 203 x 65 mm / Internal dimensions: 186 x 186 x 53 mm
- Polarization: Horizontal or vertical depending on the position of the cover
- Energy gain: 14 dBi
- Beam width: 60/23°
- Connector: N - female
- Dimensions: 128 x 326 x 30 mm
- Polarization: Horizontal or vertical depending on position
- Zysk energetyczny: 10 dBi
- Beamwidth -3 dB: 60° in both planes
- Beamwidth -6 dB: 90° in both planes
- Connector: 2x N - female
- Dimensions: 128 x 326 x 30 mm without connectors
- Energy gain: 10 dBi
- Beam width: 60° in both planes
- Connector: N - female
- Dimensions: 124 x 124 x 25 mm
- Polarization: Horizontal or vertical - depending on position
- Energy gain: 9 dBi ± 0.5
- Beam width: 65° in both planes
- Connector: RP-SMA gold-plated
- Dimensions: 123 x 123 x 13 mm
- Polarization: Horizontal or vertical depending on position
- Energy gain: 14 dBi ± 0.5
- Beam width: 32/32°
- Cable connector: MMCX
- External dimensions: 203 x 203 x 65 mm / Internal dimensions: 186 x 186 x 53 mm
- Polarization: Horizontal or vertical depending on the position of the cover
- Energy gain: 14 dBi ± 0.5
- Beam width: 32/32°
- Cable connector: R-SMA
- External dimensions: 203 x 203 x 65 mm / Internal dimensions: 186 x 186 x 53 mm
- Polarization: Horizontal or vertical depending on the position of the cover
- Energy gain: 14 dBi ±0.5
- Beam width: 32/32°
- Cable connector: MMCX
- External dimensions: 203 x 203 x 65 mm / Internal dimensions: 186 x 186 x 53 mm
- Polarization: Horizontal and vertical
- Energy gain: 14 dBi ±0.5
- Beam width: 32/32°
- Cable connector: R-SMA
- External dimensions: 203 x 203 x 65 mm / Internal dimensions: 186 x 186 x 53 mm
- Polarization: Horizontal and vertical
- Energy gain: 16.5 ± 0.8 dBi
- Beam width: 22°/22°
- Cable connector: MMCX
- Internal dimensions: 309 x 309 x 88 mm / External dimensions: 326 x 326 x 113 mm
- Polarization: Vertical and horizontal
- Energy gain: 16.5 ± 0.8 dBi
- Beam width: 22°/22°
- Cable connector: R-SMA
- Internal dimensions: 309 x 309 x 88 mm / External dimensions: 326 x 326 x 113 mm
- Polarization: Vertical and horizontal
2.4 GHz panel antennas are a popular choice for extending the range and boosting the signal of Wi-Fi networks in homes, offices, and other locations. They work directionally, focusing the Wi-Fi signal in a narrow beam, which allows for longer range and a stable connection in a specific direction.
Key features of 2.4 GHz panel antennas:
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Increased range: Panel antennas can significantly increase the range of a Wi-Fi network, making them ideal for areas with weak signal or large spaces.
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Directionality: By focusing the Wi-Fi signal in a narrow beam, panel antennas reduce interference from other Wi-Fi networks, providing a more stable connection.
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Easy installation: Panel antennas are typically lightweight and easy to mount, allowing for quick and hassle-free expansion of an existing Wi-Fi network.
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Versatility: 2.4 GHz panel antennas can be used in a variety of applications, such as:
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Home or office internet access
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Point-to-point connections between buildings
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Wi-Fi bridges
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Video surveillance
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Wireless LAN networks
When choosing a 2.4 GHz panel antenna, consider the following factors:
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Gain: The gain of an antenna determines how strongly it focuses the Wi-Fi signal. The higher the gain, the longer the range and more stable the connection.
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Beamwidth: The beamwidth of an antenna determines the angle at which the Wi-Fi signal is emitted. A narrower beam provides more signal focus but requires more precise aiming of the antenna.
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Polarization: Panel antennas are available in vertical or horizontal polarization. Make sure the antenna matches the polarization of the Wi-Fi router.
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Mounting: Panel antennas are typically mounted on a mast or on a wall.
