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GL-DY2327S9016
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8517710000
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Electrical Specifications | |
Frequency Range- MHz | 2300-2700 |
Polarization | ±45° |
VSWR | ≤1.5 |
Gain-dBi | 16 |
Horizontal beam width | 90° |
Vertical beam width | 7.5° |
Front-to-back ratio dB | ≥23 |
Isolation between ports dB | ≥28 |
Input Impedance-Ω | 50 |
Maximum input power- W | 100 |
Lightning protection | DC Ground |
Mechanical Specifications | |
Input connector type | 2xN-K |
Connector place | Bottom |
Dimensions mm | 950×128×56 |
Packing size mm | 1050×230×160 |
Antenna weight kg | 3.2 |
Radome material | UPVC |
Radome color | Gray |
Mechanical tilt | 0~12° |
Operating temperature | -40°C to +65 °C |
Rated Wind Velocity m/s | 60 |
Mounting hardware mm | ¢35~¢75 |
Product Introduction
High Gain for Extended Coverage:The GL-DY2327S9016 boasts a 16dBi gain, which significantly boosts the signal strength in the 2300 - 2700MHz band. This high gain enables long - range signal transmission, making it ideal for covering large areas in 4G/LTE networks. It helps to reduce signal dead zones and ensures a stable connection for users, even in areas with weak signals or obstacles.
±45° Polarization for Interference Resistance:With ±45° polarization, the antenna can effectively reduce interference in 4G communication. In crowded wireless environments, the two orthogonal polarization directions allow the antenna to better handle complex electromagnetic signals. This results in improved signal quality and more efficient data transfer, enhancing the overall performance of the 4G network.
Wideband Compatibility with 4G/LTE:Operating within the 2300 - 2700MHz frequency range, the antenna is perfectly suited for 4G/LTE systems. Its wideband nature ensures seamless compatibility with various 4G base stations and devices. Whether it's a mobile phone, tablet, or industrial equipment, the GL-DY2327S9016 can provide reliable connectivity within the 4G network.
Low VSWR for Efficient Power Transfer:A VSWR of ≤1.5 indicates efficient power transfer. A low VSWR minimizes signal reflection, ensuring that more of the transmitted power is used for signal radiation. This not only improves the signal strength but also reduces power waste, optimizing the performance of the 4G/LTE network and saving energy.
Durable Structure and Easy Installation:Made with a strong UPVC radome, the antenna can withstand harsh environmental conditions. It can operate in temperatures ranging from - 40°C to +65 °C and endure a rated wind velocity of 60 m/s. The 2xN - K connectors at the bottom and the available mounting hardware (¢35 - ¢75) make installation straightforward. The mechanical tilt of 0 - 12° allows for easy adjustment to optimize signal coverage.
Application scenarios
Urban 4G Network Enhancement: Boost coverage in densely populated cities or commercial hubs.
Industrial IoT Connectivity: Link sensors in factories, mines, or smart warehouses.
Smart City Infrastructure: Support traffic systems, public safety networks, and smart grids.
Rural LTE Expansion: Extend reliable connectivity to remote or underserved areas.
Emergency Communication: Ensure stable networks during disasters or outages.
▼Product Comparison:GL-DY2327S9016 vs. GL-DY2327S9014 vs.GL-DY2327S9011
| Product Model | GL-DY2327S9016 | GL-DY2327S9014 | GL-DY2327S9011 |
|---|---|---|---|
| Gain - dBi | 16 | 14 | 11 |
| Vertical beam width | 7.5° | 15° | 30° |
| Dimensions - mm | 950×128×56 | 500×128×56 | 230×128×56 |
| Antenna weight - kg | 3.2 | 1.5 | 1.1 |
▼Analysis of Performance Differences
Signal Gain: The GL - DY2327S9016 has the highest gain of 16 dBi, which offers the best long - distance transmission and signal penetration capabilities. The GL - DY2327S9014 has a gain of 14 dBi, with performance ranking second. The GL - DY2327S9011 has a relatively weaker gain of 11 dBi.
Vertical Beam Coverage: The GL - DY2327S9011 has the widest vertical beam width of 30°, making it suitable for scenarios that require a large vertical space coverage. The GL - DY2327S9014 has a vertical beam width of 15°, providing a moderate coverage range. The GL - DY2327S9016 has a vertical beam width of only 7.5°, with a more concentrated signal, which is suitable for scenarios where precise vertical coverage is needed.
Dimensions and Weight: The GL - DY2327S9016 has the largest dimensions and the heaviest weight. Although it may require a more robust installation structure, it may also offer better stability. The GL - DY2327S9014 and GL - DY2327S9011 have gradually smaller dimensions and lighter weights, making them more convenient to install.
▼Selection Recommendations
Large - scale and Long - distance Coverage Scenarios: If you need to cover a large area with high requirements for signal transmission distance, such as the construction of 4G base stations in large suburban or rural areas, the GL - DY2327S9016 is more suitable. Its high gain and narrow vertical beam can achieve long - distance and precise coverage.
Medium - coverage Requirement Scenarios: For general urban areas where the requirement for signal coverage distance is not extremely high, but a certain vertical coverage range is needed, such as base stations in ordinary urban areas or the interior coverage of large shopping malls, the GL - DY2327S9014 is a good choice. Its gain and vertical beam width can balance the coverage effect and installation convenience.
Limited Installation Space or Wide Vertical Coverage Requirement Scenarios: In places with limited installation space, or when covering low - rise buildings and a large vertical coverage range is required, like small base stations in dense urban areas or indoor distribution systems, the GL - DY2327S9011 is more convenient to install and can meet the coverage needs due to its small size, light weight, and wide vertical beam width.
FAQ
Q:Is the GL-DY2327S9016 compatible with all 4G devices?
A:As long as the 4G device operates within the 2300 - 2700MHz frequency range and is designed to work with antennas having 50 - ohm impedance and appropriate polarization, the GL-DY2327S9016 should be compatible. However, it's advisable to check the device's specifications for optimal performance.
Q:How does the 16dBi gain impact the antenna's performance?
A:The 16dBi gain significantly improves the signal strength. It allows the antenna to transmit and receive signals over longer distances. In areas with weak signals or many obstacles, the 16dBi gain can enhance the signal quality, reducing signal dropouts and ensuring a more stable 4G connection.
Q:What is the importance of the ±45° polarization?
A:The ±45° polarization helps to reduce interference in 4G communication. It allows the antenna to use two different polarization directions, which can better adapt to complex electromagnetic environments. This results in an improved signal - to - noise ratio and more efficient data transmission, especially in areas with a high density of wireless signals.
Q:Can the antenna be used in extreme weather conditions?
A:The GL-DY2327S9016 is designed to operate within a temperature range of - 40°C to +65 °C and can withstand a wind velocity of 60 m/s. While it can handle most weather conditions, extremely severe weather like hurricanes or extreme cold may still have an impact. But in normal extreme weather within its rated range, it should function properly.
Q:How do I install the GL-DY2327S9016 antenna?
A:The GL-DY2327S9016 has 2xN - K connectors at the bottom. First, select a suitable pole with a diameter between ¢35 - ¢75. Then, use the provided mounting hardware to attach the antenna to the pole. Adjust the mechanical tilt (0 - 12°) according to the desired coverage area. Finally, connect the 2xN - K connectors to the relevant 4G base station or device, ensuring a secure connection for optimal signal transmission.
Q:What is the warranty period for the GL-DY2327S9016 antenna?
A:The provided information does not mention the warranty period. Please contact our sales team or check the product documentation for specific warranty details.
Q:Can the antenna be used for 5G networks?
A:The GL-DY2327S9016 is designed specifically for 4G/LTE systems operating in the 2300 - 2700MHz band. While 5G networks may use some of the same frequency bands in some cases, this antenna may not be optimized for 5G performance. It's best to use antennas specifically designed for 5G to ensure optimal results.
Electrical Specifications | |
Frequency Range- MHz | 2300-2700 |
Polarization | ±45° |
VSWR | ≤1.5 |
Gain-dBi | 16 |
Horizontal beam width | 90° |
Vertical beam width | 7.5° |
Front-to-back ratio dB | ≥23 |
Isolation between ports dB | ≥28 |
Input Impedance-Ω | 50 |
Maximum input power- W | 100 |
Lightning protection | DC Ground |
Mechanical Specifications | |
Input connector type | 2xN-K |
Connector place | Bottom |
Dimensions mm | 950×128×56 |
Packing size mm | 1050×230×160 |
Antenna weight kg | 3.2 |
Radome material | UPVC |
Radome color | Gray |
Mechanical tilt | 0~12° |
Operating temperature | -40°C to +65 °C |
Rated Wind Velocity m/s | 60 |
Mounting hardware mm | ¢35~¢75 |
Product Introduction
High Gain for Extended Coverage:The GL-DY2327S9016 boasts a 16dBi gain, which significantly boosts the signal strength in the 2300 - 2700MHz band. This high gain enables long - range signal transmission, making it ideal for covering large areas in 4G/LTE networks. It helps to reduce signal dead zones and ensures a stable connection for users, even in areas with weak signals or obstacles.
±45° Polarization for Interference Resistance:With ±45° polarization, the antenna can effectively reduce interference in 4G communication. In crowded wireless environments, the two orthogonal polarization directions allow the antenna to better handle complex electromagnetic signals. This results in improved signal quality and more efficient data transfer, enhancing the overall performance of the 4G network.
Wideband Compatibility with 4G/LTE:Operating within the 2300 - 2700MHz frequency range, the antenna is perfectly suited for 4G/LTE systems. Its wideband nature ensures seamless compatibility with various 4G base stations and devices. Whether it's a mobile phone, tablet, or industrial equipment, the GL-DY2327S9016 can provide reliable connectivity within the 4G network.
Low VSWR for Efficient Power Transfer:A VSWR of ≤1.5 indicates efficient power transfer. A low VSWR minimizes signal reflection, ensuring that more of the transmitted power is used for signal radiation. This not only improves the signal strength but also reduces power waste, optimizing the performance of the 4G/LTE network and saving energy.
Durable Structure and Easy Installation:Made with a strong UPVC radome, the antenna can withstand harsh environmental conditions. It can operate in temperatures ranging from - 40°C to +65 °C and endure a rated wind velocity of 60 m/s. The 2xN - K connectors at the bottom and the available mounting hardware (¢35 - ¢75) make installation straightforward. The mechanical tilt of 0 - 12° allows for easy adjustment to optimize signal coverage.
Application scenarios
Urban 4G Network Enhancement: Boost coverage in densely populated cities or commercial hubs.
Industrial IoT Connectivity: Link sensors in factories, mines, or smart warehouses.
Smart City Infrastructure: Support traffic systems, public safety networks, and smart grids.
Rural LTE Expansion: Extend reliable connectivity to remote or underserved areas.
Emergency Communication: Ensure stable networks during disasters or outages.
▼Product Comparison:GL-DY2327S9016 vs. GL-DY2327S9014 vs.GL-DY2327S9011
| Product Model | GL-DY2327S9016 | GL-DY2327S9014 | GL-DY2327S9011 |
|---|---|---|---|
| Gain - dBi | 16 | 14 | 11 |
| Vertical beam width | 7.5° | 15° | 30° |
| Dimensions - mm | 950×128×56 | 500×128×56 | 230×128×56 |
| Antenna weight - kg | 3.2 | 1.5 | 1.1 |
▼Analysis of Performance Differences
Signal Gain: The GL - DY2327S9016 has the highest gain of 16 dBi, which offers the best long - distance transmission and signal penetration capabilities. The GL - DY2327S9014 has a gain of 14 dBi, with performance ranking second. The GL - DY2327S9011 has a relatively weaker gain of 11 dBi.
Vertical Beam Coverage: The GL - DY2327S9011 has the widest vertical beam width of 30°, making it suitable for scenarios that require a large vertical space coverage. The GL - DY2327S9014 has a vertical beam width of 15°, providing a moderate coverage range. The GL - DY2327S9016 has a vertical beam width of only 7.5°, with a more concentrated signal, which is suitable for scenarios where precise vertical coverage is needed.
Dimensions and Weight: The GL - DY2327S9016 has the largest dimensions and the heaviest weight. Although it may require a more robust installation structure, it may also offer better stability. The GL - DY2327S9014 and GL - DY2327S9011 have gradually smaller dimensions and lighter weights, making them more convenient to install.
▼Selection Recommendations
Large - scale and Long - distance Coverage Scenarios: If you need to cover a large area with high requirements for signal transmission distance, such as the construction of 4G base stations in large suburban or rural areas, the GL - DY2327S9016 is more suitable. Its high gain and narrow vertical beam can achieve long - distance and precise coverage.
Medium - coverage Requirement Scenarios: For general urban areas where the requirement for signal coverage distance is not extremely high, but a certain vertical coverage range is needed, such as base stations in ordinary urban areas or the interior coverage of large shopping malls, the GL - DY2327S9014 is a good choice. Its gain and vertical beam width can balance the coverage effect and installation convenience.
Limited Installation Space or Wide Vertical Coverage Requirement Scenarios: In places with limited installation space, or when covering low - rise buildings and a large vertical coverage range is required, like small base stations in dense urban areas or indoor distribution systems, the GL - DY2327S9011 is more convenient to install and can meet the coverage needs due to its small size, light weight, and wide vertical beam width.
FAQ
Q:Is the GL-DY2327S9016 compatible with all 4G devices?
A:As long as the 4G device operates within the 2300 - 2700MHz frequency range and is designed to work with antennas having 50 - ohm impedance and appropriate polarization, the GL-DY2327S9016 should be compatible. However, it's advisable to check the device's specifications for optimal performance.
Q:How does the 16dBi gain impact the antenna's performance?
A:The 16dBi gain significantly improves the signal strength. It allows the antenna to transmit and receive signals over longer distances. In areas with weak signals or many obstacles, the 16dBi gain can enhance the signal quality, reducing signal dropouts and ensuring a more stable 4G connection.
Q:What is the importance of the ±45° polarization?
A:The ±45° polarization helps to reduce interference in 4G communication. It allows the antenna to use two different polarization directions, which can better adapt to complex electromagnetic environments. This results in an improved signal - to - noise ratio and more efficient data transmission, especially in areas with a high density of wireless signals.
Q:Can the antenna be used in extreme weather conditions?
A:The GL-DY2327S9016 is designed to operate within a temperature range of - 40°C to +65 °C and can withstand a wind velocity of 60 m/s. While it can handle most weather conditions, extremely severe weather like hurricanes or extreme cold may still have an impact. But in normal extreme weather within its rated range, it should function properly.
Q:How do I install the GL-DY2327S9016 antenna?
A:The GL-DY2327S9016 has 2xN - K connectors at the bottom. First, select a suitable pole with a diameter between ¢35 - ¢75. Then, use the provided mounting hardware to attach the antenna to the pole. Adjust the mechanical tilt (0 - 12°) according to the desired coverage area. Finally, connect the 2xN - K connectors to the relevant 4G base station or device, ensuring a secure connection for optimal signal transmission.
Q:What is the warranty period for the GL-DY2327S9016 antenna?
A:The provided information does not mention the warranty period. Please contact our sales team or check the product documentation for specific warranty details.
Q:Can the antenna be used for 5G networks?
A:The GL-DY2327S9016 is designed specifically for 4G/LTE systems operating in the 2300 - 2700MHz band. While 5G networks may use some of the same frequency bands in some cases, this antenna may not be optimized for 5G performance. It's best to use antennas specifically designed for 5G to ensure optimal results.
