GL - DY3500V11
Asialeren
8517710000
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Electrical Specifications | |
Frequency Range- MHz | 3400-3600 |
VSWR | ≤1.5 |
Gain- dBi | 11 |
Horizontal beam width | 360° |
Verticalbeam width | 7° |
Polarization | Vertical |
Input Impedance-Ω | 50 |
Maximum input power- W | 50 |
Lightning protection | DC Ground |
Mechanical Specifications | |
Input connector type | N-K |
Connector place | Bottom |
Dimensions- mm | Ф20×790 |
Antenna weight- kg | 0.9 |
Radome material | Fiberglass |
Radome color | gray |
Operating temperature | -40°c~60°c |
Rated Wind Velocity- m/s | 60 |
Mounting hardware- mm | ¢35~¢60 |
Product Introduction
Optimal 5G Frequency: Designed for the 3400 - 3600MHz frequency range, it is a perfect match for 5G new network systems and point - to - multipoint applications, ensuring seamless integration into 5G infrastructure.
High Gain Advantage: With an 11 dBi gain, it offers significant signal amplification, enabling long - range and high - quality 5G signal transmission, which is crucial for covering large areas and penetrating obstacles.
Omni - directional Design: The 360° horizontal beamwidth provides all - around signal coverage, making it suitable for scenarios where multiple devices in different directions need to connect to the 5G network simultaneously.
Durable and Weatherproof: Constructed from high - quality fiberglass radome, it can withstand harsh environmental conditions. It has an operating temperature range of - 40°C to 60°C and can endure a rated wind velocity of 60 m/s, ensuring reliable performance outdoors.
Enhanced Protection: The DC ground lightning protection feature safeguards the antenna and connected 5G devices from potential damage caused by lightning strikes, enhancing the overall system's reliability and lifespan.
Application scenarios
5G Rural Broadband Expansion: In rural areas, it can be used to extend 5G network coverage, bringing high - speed internet access to remote communities and enabling applications like telemedicine, online education, and smart agriculture.
Large - scale 5G IoT Deployments: For large - scale Internet of Things (IoT) projects in industries such as logistics, energy, and manufacturing, it can support a large number of IoT devices communicating with 5G gateways, facilitating real - time data collection and management.
5G - based Video Surveillance: In security and surveillance systems, it enables high - definition video transmission over 5G networks, providing real - time monitoring for large - area locations like airports, ports, and industrial parks.
5G - enabled Smart Grids: For power grid management, it can be used to establish reliable 5G communication links between smart meters, substations, and control centers, enabling efficient power distribution and monitoring.
5G - powered Smart Retail: In retail stores, it can support 5G - enabled technologies such as augmented reality shopping experiences, real - time inventory management, and customer analytics, enhancing the overall shopping experience.
Parameter | GL-DY3500V8 | GL-DY3500V11 | Analysis |
---|---|---|---|
Gain | 8 dBi | 11 dBi | V11 offers higher gain, broader coverage, and stronger signal strength. |
Vertical Beamwidth | 15° | 7° | V11 has a narrower vertical beam, focusing signals more precisely (e.g., for tall buildings or directional transmission). |
Dimensions (mm) | Φ20×430 (0.7kg) | Φ20×790 (0.9kg) | V11 is longer and heavier, requiring more installation space and sturdier mounting. |
Application Scenarios | General omni-coverage | High-gain directional coverage | V11 suits long-distance or high-density signal needs; V8 is better for lightweight deployments. |
Features | No emphasized specs | "High gain, stable performance, all-weather operation" | V11 likely optimizes signal stability, but both share the same environmental specs (temperature, wind resistance). |
High Gain & Precision Coverage Needed:
Choose GL-DY3500V11. Its 11 dBi gain and 7° vertical beamwidth are ideal for long-range transmission or scenarios requiring vertical signal focus (e.g., skyscrapers, mountainous areas).
Lightweight & Easy Installation:
Choose GL-DY3500V8. Its compact size (430mm vs. 790mm) and lighter weight (0.7kg vs. 0.9kg) suit space-limited or weight-sensitive setups (e.g., temporary base stations, mobile devices).
Cost vs. Performance Balance:
If high gain is unnecessary, V8 offers better cost efficiency. For improved signal quality or coverage, V11 is superior (confirm price differences).
Environmental Compatibility:
Both support -40°C~60°C and 60m/s wind speed. Choose based on other parameters.
Summary: Prioritize V11 for maximum performance if installation conditions allow; opt for V8 for portability and flexibility.
Q:What is the main difference between GL - DY3500V11 and other 5G antennas?
A:The GL - DY3500V11 features a relatively high gain of 11 dBi, which can provide stronger signals over a longer distance compared to some other 5G antennas, making it suitable for applications requiring extended coverage.
Q:Can it be installed on a rooftop?
A:Yes, it can be installed on rooftops as long as the mounting pole has a diameter within the range of 35 - 60 mm and proper grounding measures are taken for lightning protection.
Q:How does the antenna perform in heavy rain or snow?
A:The fiberglass radome construction and its weather - resistant design allow the antenna to maintain stable performance in heavy rain, snow, and other adverse weather conditions.
Q:Is it compatible with all 5G base stations?
A:It operates in the 3400 - 3600MHz frequency range. Most 5G base stations within this frequency band should be compatible, but it's recommended to check the specific specifications of the base station for optimal compatibility.
Q:What is the expected lifespan of the antenna?
A:With proper installation and maintenance, and considering its robust construction, the antenna can have a long lifespan. However, extreme environmental factors and improper handling may affect its longevity.
Q:Can I adjust the gain of the antenna?
A:The gain of the antenna is a fixed characteristic based on its design and construction. It cannot be adjusted after production.
Q:How do I choose the right location for installing the antenna?
A:Choose a location with a clear line of sight to the area you want to cover, away from large metal objects and sources of interference. Also, ensure proper grounding for lightning protection and easy access for maintenance.
Electrical Specifications | |
Frequency Range- MHz | 3400-3600 |
VSWR | ≤1.5 |
Gain- dBi | 11 |
Horizontal beam width | 360° |
Verticalbeam width | 7° |
Polarization | Vertical |
Input Impedance-Ω | 50 |
Maximum input power- W | 50 |
Lightning protection | DC Ground |
Mechanical Specifications | |
Input connector type | N-K |
Connector place | Bottom |
Dimensions- mm | Ф20×790 |
Antenna weight- kg | 0.9 |
Radome material | Fiberglass |
Radome color | gray |
Operating temperature | -40°c~60°c |
Rated Wind Velocity- m/s | 60 |
Mounting hardware- mm | ¢35~¢60 |
Product Introduction
Optimal 5G Frequency: Designed for the 3400 - 3600MHz frequency range, it is a perfect match for 5G new network systems and point - to - multipoint applications, ensuring seamless integration into 5G infrastructure.
High Gain Advantage: With an 11 dBi gain, it offers significant signal amplification, enabling long - range and high - quality 5G signal transmission, which is crucial for covering large areas and penetrating obstacles.
Omni - directional Design: The 360° horizontal beamwidth provides all - around signal coverage, making it suitable for scenarios where multiple devices in different directions need to connect to the 5G network simultaneously.
Durable and Weatherproof: Constructed from high - quality fiberglass radome, it can withstand harsh environmental conditions. It has an operating temperature range of - 40°C to 60°C and can endure a rated wind velocity of 60 m/s, ensuring reliable performance outdoors.
Enhanced Protection: The DC ground lightning protection feature safeguards the antenna and connected 5G devices from potential damage caused by lightning strikes, enhancing the overall system's reliability and lifespan.
Application scenarios
5G Rural Broadband Expansion: In rural areas, it can be used to extend 5G network coverage, bringing high - speed internet access to remote communities and enabling applications like telemedicine, online education, and smart agriculture.
Large - scale 5G IoT Deployments: For large - scale Internet of Things (IoT) projects in industries such as logistics, energy, and manufacturing, it can support a large number of IoT devices communicating with 5G gateways, facilitating real - time data collection and management.
5G - based Video Surveillance: In security and surveillance systems, it enables high - definition video transmission over 5G networks, providing real - time monitoring for large - area locations like airports, ports, and industrial parks.
5G - enabled Smart Grids: For power grid management, it can be used to establish reliable 5G communication links between smart meters, substations, and control centers, enabling efficient power distribution and monitoring.
5G - powered Smart Retail: In retail stores, it can support 5G - enabled technologies such as augmented reality shopping experiences, real - time inventory management, and customer analytics, enhancing the overall shopping experience.
Parameter | GL-DY3500V8 | GL-DY3500V11 | Analysis |
---|---|---|---|
Gain | 8 dBi | 11 dBi | V11 offers higher gain, broader coverage, and stronger signal strength. |
Vertical Beamwidth | 15° | 7° | V11 has a narrower vertical beam, focusing signals more precisely (e.g., for tall buildings or directional transmission). |
Dimensions (mm) | Φ20×430 (0.7kg) | Φ20×790 (0.9kg) | V11 is longer and heavier, requiring more installation space and sturdier mounting. |
Application Scenarios | General omni-coverage | High-gain directional coverage | V11 suits long-distance or high-density signal needs; V8 is better for lightweight deployments. |
Features | No emphasized specs | "High gain, stable performance, all-weather operation" | V11 likely optimizes signal stability, but both share the same environmental specs (temperature, wind resistance). |
High Gain & Precision Coverage Needed:
Choose GL-DY3500V11. Its 11 dBi gain and 7° vertical beamwidth are ideal for long-range transmission or scenarios requiring vertical signal focus (e.g., skyscrapers, mountainous areas).
Lightweight & Easy Installation:
Choose GL-DY3500V8. Its compact size (430mm vs. 790mm) and lighter weight (0.7kg vs. 0.9kg) suit space-limited or weight-sensitive setups (e.g., temporary base stations, mobile devices).
Cost vs. Performance Balance:
If high gain is unnecessary, V8 offers better cost efficiency. For improved signal quality or coverage, V11 is superior (confirm price differences).
Environmental Compatibility:
Both support -40°C~60°C and 60m/s wind speed. Choose based on other parameters.
Summary: Prioritize V11 for maximum performance if installation conditions allow; opt for V8 for portability and flexibility.
Q:What is the main difference between GL - DY3500V11 and other 5G antennas?
A:The GL - DY3500V11 features a relatively high gain of 11 dBi, which can provide stronger signals over a longer distance compared to some other 5G antennas, making it suitable for applications requiring extended coverage.
Q:Can it be installed on a rooftop?
A:Yes, it can be installed on rooftops as long as the mounting pole has a diameter within the range of 35 - 60 mm and proper grounding measures are taken for lightning protection.
Q:How does the antenna perform in heavy rain or snow?
A:The fiberglass radome construction and its weather - resistant design allow the antenna to maintain stable performance in heavy rain, snow, and other adverse weather conditions.
Q:Is it compatible with all 5G base stations?
A:It operates in the 3400 - 3600MHz frequency range. Most 5G base stations within this frequency band should be compatible, but it's recommended to check the specific specifications of the base station for optimal compatibility.
Q:What is the expected lifespan of the antenna?
A:With proper installation and maintenance, and considering its robust construction, the antenna can have a long lifespan. However, extreme environmental factors and improper handling may affect its longevity.
Q:Can I adjust the gain of the antenna?
A:The gain of the antenna is a fixed characteristic based on its design and construction. It cannot be adjusted after production.
Q:How do I choose the right location for installing the antenna?
A:Choose a location with a clear line of sight to the area you want to cover, away from large metal objects and sources of interference. Also, ensure proper grounding for lightning protection and easy access for maintenance.