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GL-DY7027HV
asialeren
85177100000
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Electrical Specifications | ||||
Port | Port 1 | Port 2 | ||
Frequency Range-MHz | 698-960 | 1690-2700 | 698-960 | 1690-2700 |
Gain-dBi | 3.0 | 4.5 | 3.0 | 4.5 |
VSWR | ≤1.8 | ≤1.7 | ≤1.8 | ≤1.7 |
Polarization | Linear H-V for each Radiator | |||
Isolation-dB | >19 | >23 | ||
PIM(2x20W)-dBc | ≤--150 | |||
Horizontal Beam width-° | 360 | |||
Vertical Beam width-° | 90 | 46 | 90 | 46 |
Input Impedance-Ω | 50 | |||
Max. Input Power- W | 50 | |||
Lightning Protection | DC Ground | |||
Mechanical Specifications | ||||
Connector | 2xN Female | |||
Dimensions-mm | Ø215x47 | |||
Weight-KG | 0.45 | |||
Reflector Material | Copper and PCB | |||
Radome Material | ABS (UV Stabilized) | |||
Operating Temperature-°C | -40 to +65 | |||
MIMO (Multiple-Input Multiple-Output) ceiling antennas offer several advantages in wireless communication systems. Here are some key advantages of MIMO ceiling antennas:
Improved Signal Coverage: MIMO ceiling antennas are typically installed in elevated positions, such as ceilings, which allows for better signal coverage throughout a space. The elevated placement helps to minimize obstructions and maximize the line-of-sight between the antenna and the devices, resulting in improved signal strength and coverage.
Enhanced Capacity and Throughput: MIMO ceiling antennas utilize multiple antennas to transmit and receive data simultaneously. This enables the antenna to support multiple spatial streams, increasing the overall capacity and throughput of the wireless communication system. The use of multiple antennas also helps to mitigate interference and improve the overall network performance.
Spatial Diversity: MIMO ceiling antennas provide spatial diversity by utilizing multiple antennas to receive signals from different paths and angles. This helps to combat signal fading and improve the reliability of wireless communication. By combining the signals received from multiple antennas, the antenna can provide a more robust and consistent connection.
Improved Signal Quality: MIMO ceiling antennas are designed to optimize signal quality by utilizing advanced signal processing techniques. The use of multiple antennas allows for beamforming, which focuses the transmitted signal towards the intended receiver. This helps to improve signal strength, reduce interference, and enhance the overall signal quality.
Easy Installation and Integration: MIMO ceiling antennas are designed for easy installation and integration into various environments. They are typically lightweight, compact, and unobtrusive, making them suitable for deployment in offices, conference rooms, retail spaces, and other indoor settings. The antennas can be easily mounted on ceilings or integrated into ceiling tiles, minimizing the impact on the aesthetics of the space.
Scalability and Flexibility: MIMO ceiling antennas offer scalability and flexibility in wireless communication systems. Multiple antennas can be deployed in a network to provide coverage and capacity as per the requirements of the space. Additionally, the antennas can be easily repositioned or replaced to adapt to changing network needs or to optimize coverage in specific areas.
Compatibility with Multiple Frequency Bands: MIMO ceiling antennas can be designed to operate across multiple frequency bands, making them compatible with various wireless communication standards and protocols. This allows for seamless integration into existing network infrastructures and ensures compatibility with different devices and technologies.
Overall, MIMO ceiling antennas provide improved signal coverage, enhanced capacity and throughput, spatial diversity, improved signal quality, easy installation and integration, scalability, and compatibility with multiple frequency bands. These advantages make them a popular choice for indoor wireless communication systems, providing reliable and high-performance connectivity in various environments.
Electrical Specifications | ||||
Port | Port 1 | Port 2 | ||
Frequency Range-MHz | 698-960 | 1690-2700 | 698-960 | 1690-2700 |
Gain-dBi | 3.0 | 4.5 | 3.0 | 4.5 |
VSWR | ≤1.8 | ≤1.7 | ≤1.8 | ≤1.7 |
Polarization | Linear H-V for each Radiator | |||
Isolation-dB | >19 | >23 | ||
PIM(2x20W)-dBc | ≤--150 | |||
Horizontal Beam width-° | 360 | |||
Vertical Beam width-° | 90 | 46 | 90 | 46 |
Input Impedance-Ω | 50 | |||
Max. Input Power- W | 50 | |||
Lightning Protection | DC Ground | |||
Mechanical Specifications | ||||
Connector | 2xN Female | |||
Dimensions-mm | Ø215x47 | |||
Weight-KG | 0.45 | |||
Reflector Material | Copper and PCB | |||
Radome Material | ABS (UV Stabilized) | |||
Operating Temperature-°C | -40 to +65 | |||
MIMO (Multiple-Input Multiple-Output) ceiling antennas offer several advantages in wireless communication systems. Here are some key advantages of MIMO ceiling antennas:
Improved Signal Coverage: MIMO ceiling antennas are typically installed in elevated positions, such as ceilings, which allows for better signal coverage throughout a space. The elevated placement helps to minimize obstructions and maximize the line-of-sight between the antenna and the devices, resulting in improved signal strength and coverage.
Enhanced Capacity and Throughput: MIMO ceiling antennas utilize multiple antennas to transmit and receive data simultaneously. This enables the antenna to support multiple spatial streams, increasing the overall capacity and throughput of the wireless communication system. The use of multiple antennas also helps to mitigate interference and improve the overall network performance.
Spatial Diversity: MIMO ceiling antennas provide spatial diversity by utilizing multiple antennas to receive signals from different paths and angles. This helps to combat signal fading and improve the reliability of wireless communication. By combining the signals received from multiple antennas, the antenna can provide a more robust and consistent connection.
Improved Signal Quality: MIMO ceiling antennas are designed to optimize signal quality by utilizing advanced signal processing techniques. The use of multiple antennas allows for beamforming, which focuses the transmitted signal towards the intended receiver. This helps to improve signal strength, reduce interference, and enhance the overall signal quality.
Easy Installation and Integration: MIMO ceiling antennas are designed for easy installation and integration into various environments. They are typically lightweight, compact, and unobtrusive, making them suitable for deployment in offices, conference rooms, retail spaces, and other indoor settings. The antennas can be easily mounted on ceilings or integrated into ceiling tiles, minimizing the impact on the aesthetics of the space.
Scalability and Flexibility: MIMO ceiling antennas offer scalability and flexibility in wireless communication systems. Multiple antennas can be deployed in a network to provide coverage and capacity as per the requirements of the space. Additionally, the antennas can be easily repositioned or replaced to adapt to changing network needs or to optimize coverage in specific areas.
Compatibility with Multiple Frequency Bands: MIMO ceiling antennas can be designed to operate across multiple frequency bands, making them compatible with various wireless communication standards and protocols. This allows for seamless integration into existing network infrastructures and ensures compatibility with different devices and technologies.
Overall, MIMO ceiling antennas provide improved signal coverage, enhanced capacity and throughput, spatial diversity, improved signal quality, easy installation and integration, scalability, and compatibility with multiple frequency bands. These advantages make them a popular choice for indoor wireless communication systems, providing reliable and high-performance connectivity in various environments.
