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GL-DY7027S
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8517710000
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Electrical Specifications | ||||
Frequency Range-MHz | 698-806 | 806-960 | 1690-2170 | 2170-2700 |
Gain-dBi | 6.5 | 7.0 | 8.5 | 9.0 |
VSWR | ≤1.8 | ≤1.7 | ||
Polarization-° | ±45 | |||
Isolation-dB | ≤20 | ≤23 | ||
PIM( 2x20W)-dBc | ≤--150 | |||
Horizontal Beam width-° | 78 | 73 | 65 | 60 |
Vertical Beam width-° | 70 | 62 | 58 | 55 |
Input Impedance-Ω | 50 | |||
Max. Input Power-W | 50 | |||
Lightning Protection | DC Ground | |||
Mechanical Specifications | ||||
Connector | 2xN Female | |||
Dimensions-mm | 315x195x68 | |||
Weight-KG | 0.7 | |||
Reflector Material | Copper and PCB | |||
Radome Material | ABS (UV Stabilized) | |||
Operating Temperature-°C | -40 to +65 | |||
The main purpose of MIMO antennas is to enhance the capacity and reliability of wireless communication systems. Here are some key aspects of MIMO antennas:
Increased data throughput: MIMO antennas enable the simultaneous transmission of multiple data streams over the same frequency band. By using multiple antennas, the system can exploit the spatial diversity of the wireless channel, resulting in higher data rates and increased capacity.
Improved signal quality: MIMO antennas utilize spatial multiplexing, which allows for the transmission of multiple independent data streams over the same frequency and time slots. This helps to mitigate the effects of fading and interference, resulting in improved signal quality and reduced errors.
Enhanced coverage and range: MIMO antennas can improve coverage and range by exploiting the multipath propagation characteristics of the wireless channel. By using multiple antennas, the system can receive signals from different paths, which helps to overcome obstacles and improve signal strength in challenging environments.
Better resistance to interference: MIMO antennas can improve the resistance to interference by using spatial diversity. By transmitting multiple copies of the same signal from different antennas, the system can increase the chances of receiving at least one good copy of the signal, even in the presence of interference.
Electrical Specifications | ||||
Frequency Range-MHz | 698-806 | 806-960 | 1690-2170 | 2170-2700 |
Gain-dBi | 6.5 | 7.0 | 8.5 | 9.0 |
VSWR | ≤1.8 | ≤1.7 | ||
Polarization-° | ±45 | |||
Isolation-dB | ≤20 | ≤23 | ||
PIM( 2x20W)-dBc | ≤--150 | |||
Horizontal Beam width-° | 78 | 73 | 65 | 60 |
Vertical Beam width-° | 70 | 62 | 58 | 55 |
Input Impedance-Ω | 50 | |||
Max. Input Power-W | 50 | |||
Lightning Protection | DC Ground | |||
Mechanical Specifications | ||||
Connector | 2xN Female | |||
Dimensions-mm | 315x195x68 | |||
Weight-KG | 0.7 | |||
Reflector Material | Copper and PCB | |||
Radome Material | ABS (UV Stabilized) | |||
Operating Temperature-°C | -40 to +65 | |||
The main purpose of MIMO antennas is to enhance the capacity and reliability of wireless communication systems. Here are some key aspects of MIMO antennas:
Increased data throughput: MIMO antennas enable the simultaneous transmission of multiple data streams over the same frequency band. By using multiple antennas, the system can exploit the spatial diversity of the wireless channel, resulting in higher data rates and increased capacity.
Improved signal quality: MIMO antennas utilize spatial multiplexing, which allows for the transmission of multiple independent data streams over the same frequency and time slots. This helps to mitigate the effects of fading and interference, resulting in improved signal quality and reduced errors.
Enhanced coverage and range: MIMO antennas can improve coverage and range by exploiting the multipath propagation characteristics of the wireless channel. By using multiple antennas, the system can receive signals from different paths, which helps to overcome obstacles and improve signal strength in challenging environments.
Better resistance to interference: MIMO antennas can improve the resistance to interference by using spatial diversity. By transmitting multiple copies of the same signal from different antennas, the system can increase the chances of receiving at least one good copy of the signal, even in the presence of interference.
