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GL-DY3338S6517
Asialeren
8517710000
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Electrical Specifications | |
Frequency Range- MHz | 3300-3800 |
Polarization | ±45° |
VSWR | ≤1.5 |
Gain- dBi | 17 |
Horizontal beam width | 65° |
Verticalbeam width | 7.5° |
Front-to-back ratio- dB | ≥25 |
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 | 650×128×56 |
Packing size- mm | 750×230×160 |
Antenna weight-KGS | 2.7 |
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
1.Wideband and High Performance
●Supports 3300-3800MHz frequency band, specially designed for 5G network system, covering mainstream 5G frequency band requirements.
●High gain (17dBi) and low standing wave ratio (VSWR ≤1.5) ensure stable and efficient signal transmission and reduce energy loss.
2.Precise beam control
●Horizontal beam width of 65° and vertical beam width of 7.5°, achieve precise fan-shaped coverage, optimize network capacity and signal quality.
●Front-to-back ratio ≥25dB and port isolation ≥28dB, effectively suppress interference and improve signal purity.
3.Industrial-grade durable design
●UPVC antenna cover with IP65 protection level (based on mechanical parameters), adapt to extreme environments (working temperature -40°C to +65°C).
●Rated wind speed of 60m/s, ensuring stability in bad weather.
4.Flexible installation and adjustment
●2xN-K interface design at the bottom, compatible with standard mounting accessories (supports φ35~φ75mm pole diameter).
●Adjustable mechanical tilt (0~12°) to optimize coverage angle and adapt to complex deployment scenarios.
5.High power carrying and lightning protection
●Maximum input power of 100W, meeting high-density network requirements.
●DC grounding lightning protection, improving the safety of equipment in thunderstorms.
| Comparison Item | GL - DY3338S6515 | GL - DY3338S6517 | Difference Analysis |
|---|---|---|---|
| Product Model | GL - DY3338S6515 | GL - DY3338S6517 | |
| Application Scenarios | 5G network system, high - gain broadband coverage | 5G network system, sector coverage (Sector Coverage). GL - DY3338S6517 emphasizes precise sector coverage, suitable for deployment in high - density areas | |
| Electrical Specifications | |||
| - Gain (Gain - dB) | 15dBi | 17dBi | The gain of S6517 is higher, enabling the signal to cover a farther distance and have stronger penetration. |
| - Vertical Beamwidth | 15° | 7.5° | The vertical beam of S6517 is narrower, suitable for precise vertical coverage (such as in high - rise building dense areas). |
| - Polarization Mode | ±45° | ±45° | The same, both support dual - polarization design. |
| - Dimensions (Length×Width×Height) | 360×128×56mm | 650×128×56mm | S6517 is longer, possibly requiring a larger radiation surface due to its higher gain. |
| - Packaging Dimensions | 450×230×160mm | 760×230×160mm | The packaging of S6517 is larger, requiring more transportation space. |
| - Weight | 1.3kg | 2.7kg | S6517 is heavier, and the load - bearing capacity of the installation needs to be considered. |
| - Input Interface | 2×N - K (Bottom) | 2×N - K (Bottom) | The same, compatible with standard base station connections. |
| Environmental Adaptability | |||
| - Operating Temperature | - 40°C to + 65°C | - 40°C to + 65°C | The same, both support extreme environments. |
| - Wind Resistance | 60m/s | 60m/s | The same, meeting the deployment requirements in strong - wind areas. |
| Other Characteristics | |||
| - Special Functions | High - gain, broadband coverage | High - gain, strong structure, easy installation | S6517 emphasizes structural strength and installation convenience, suitable for complex construction scenarios. |
| - Maximum Input Power | 100W | 100W | The same, both support high - power input. |
▼Summary of core differences
1.Performance differences:
◆S6517 has higher gain (17dBi vs 15dBi), suitable for long-distance or strong penetration scenarios.
◆S6517 has narrower vertical beam width (7.5° vs 15°), which can reduce signal overlap and optimize vertical coverage accuracy.
2.Physical characteristics:
S6517 is larger and heavier, and may be more suitable for fixed base station deployment, while S6515 is lighter and suitable for space-constrained scenarios.
3.Selection suggestions
◆Choose S6517: If you need high gain, precise sector coverage and strong structural support (such as typhoon-prone areas and high-rise building dense areas).
◆Choose S6515: If you need a lightweight, compact design with moderate coverage requirements (such as suburban base stations and temporary deployment scenarios)
FAQ
Q: Is this antenna compatible with 4G network?
A: Designed for 5G frequency band (3300-3800MHz), it is not compatible with 4G low frequency band, but can be used in networking with other frequency band antennas.
Q: How to adjust the mechanical tilt angle of the antenna?
A: Manual adjustment through the mounting bracket supports a tilt range of 0° to 12° to meet different coverage requirements.
Q: Does lightning protection require additional grounding?
A: The antenna has built-in DC grounding lightning protection design, but it is still recommended to use it with an external lightning protection system to enhance safety.
Q: How to choose the installation direction of the antenna?
A: According to the polarization mode (±45° dual polarization), it is recommended to install it vertically or horizontally, depending on the base station deployment requirements.
Q: Does it support multi-band aggregation?
A: This product is a single-band antenna and needs to be used with other band antennas to achieve multi-band coverage.
Q: Is the packaging size and weight suitable for outdoor construction?
A: The compact design (750×230×160mm, 2.7kg) is easy to transport and install at high altitude.
Q: Is the performance stable in low temperature environment?
A: It uses industrial-grade materials and can operate stably in an environment of -40°C to +65°C, suitable for global extreme climate deployment.
Electrical Specifications | |
Frequency Range- MHz | 3300-3800 |
Polarization | ±45° |
VSWR | ≤1.5 |
Gain- dBi | 17 |
Horizontal beam width | 65° |
Verticalbeam width | 7.5° |
Front-to-back ratio- dB | ≥25 |
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 | 650×128×56 |
Packing size- mm | 750×230×160 |
Antenna weight-KGS | 2.7 |
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
1.Wideband and High Performance
●Supports 3300-3800MHz frequency band, specially designed for 5G network system, covering mainstream 5G frequency band requirements.
●High gain (17dBi) and low standing wave ratio (VSWR ≤1.5) ensure stable and efficient signal transmission and reduce energy loss.
2.Precise beam control
●Horizontal beam width of 65° and vertical beam width of 7.5°, achieve precise fan-shaped coverage, optimize network capacity and signal quality.
●Front-to-back ratio ≥25dB and port isolation ≥28dB, effectively suppress interference and improve signal purity.
3.Industrial-grade durable design
●UPVC antenna cover with IP65 protection level (based on mechanical parameters), adapt to extreme environments (working temperature -40°C to +65°C).
●Rated wind speed of 60m/s, ensuring stability in bad weather.
4.Flexible installation and adjustment
●2xN-K interface design at the bottom, compatible with standard mounting accessories (supports φ35~φ75mm pole diameter).
●Adjustable mechanical tilt (0~12°) to optimize coverage angle and adapt to complex deployment scenarios.
5.High power carrying and lightning protection
●Maximum input power of 100W, meeting high-density network requirements.
●DC grounding lightning protection, improving the safety of equipment in thunderstorms.
| Comparison Item | GL - DY3338S6515 | GL - DY3338S6517 | Difference Analysis |
|---|---|---|---|
| Product Model | GL - DY3338S6515 | GL - DY3338S6517 | |
| Application Scenarios | 5G network system, high - gain broadband coverage | 5G network system, sector coverage (Sector Coverage). GL - DY3338S6517 emphasizes precise sector coverage, suitable for deployment in high - density areas | |
| Electrical Specifications | |||
| - Gain (Gain - dB) | 15dBi | 17dBi | The gain of S6517 is higher, enabling the signal to cover a farther distance and have stronger penetration. |
| - Vertical Beamwidth | 15° | 7.5° | The vertical beam of S6517 is narrower, suitable for precise vertical coverage (such as in high - rise building dense areas). |
| - Polarization Mode | ±45° | ±45° | The same, both support dual - polarization design. |
| - Dimensions (Length×Width×Height) | 360×128×56mm | 650×128×56mm | S6517 is longer, possibly requiring a larger radiation surface due to its higher gain. |
| - Packaging Dimensions | 450×230×160mm | 760×230×160mm | The packaging of S6517 is larger, requiring more transportation space. |
| - Weight | 1.3kg | 2.7kg | S6517 is heavier, and the load - bearing capacity of the installation needs to be considered. |
| - Input Interface | 2×N - K (Bottom) | 2×N - K (Bottom) | The same, compatible with standard base station connections. |
| Environmental Adaptability | |||
| - Operating Temperature | - 40°C to + 65°C | - 40°C to + 65°C | The same, both support extreme environments. |
| - Wind Resistance | 60m/s | 60m/s | The same, meeting the deployment requirements in strong - wind areas. |
| Other Characteristics | |||
| - Special Functions | High - gain, broadband coverage | High - gain, strong structure, easy installation | S6517 emphasizes structural strength and installation convenience, suitable for complex construction scenarios. |
| - Maximum Input Power | 100W | 100W | The same, both support high - power input. |
▼Summary of core differences
1.Performance differences:
◆S6517 has higher gain (17dBi vs 15dBi), suitable for long-distance or strong penetration scenarios.
◆S6517 has narrower vertical beam width (7.5° vs 15°), which can reduce signal overlap and optimize vertical coverage accuracy.
2.Physical characteristics:
S6517 is larger and heavier, and may be more suitable for fixed base station deployment, while S6515 is lighter and suitable for space-constrained scenarios.
3.Selection suggestions
◆Choose S6517: If you need high gain, precise sector coverage and strong structural support (such as typhoon-prone areas and high-rise building dense areas).
◆Choose S6515: If you need a lightweight, compact design with moderate coverage requirements (such as suburban base stations and temporary deployment scenarios)
FAQ
Q: Is this antenna compatible with 4G network?
A: Designed for 5G frequency band (3300-3800MHz), it is not compatible with 4G low frequency band, but can be used in networking with other frequency band antennas.
Q: How to adjust the mechanical tilt angle of the antenna?
A: Manual adjustment through the mounting bracket supports a tilt range of 0° to 12° to meet different coverage requirements.
Q: Does lightning protection require additional grounding?
A: The antenna has built-in DC grounding lightning protection design, but it is still recommended to use it with an external lightning protection system to enhance safety.
Q: How to choose the installation direction of the antenna?
A: According to the polarization mode (±45° dual polarization), it is recommended to install it vertically or horizontally, depending on the base station deployment requirements.
Q: Does it support multi-band aggregation?
A: This product is a single-band antenna and needs to be used with other band antennas to achieve multi-band coverage.
Q: Is the packaging size and weight suitable for outdoor construction?
A: The compact design (750×230×160mm, 2.7kg) is easy to transport and install at high altitude.
Q: Is the performance stable in low temperature environment?
A: It uses industrial-grade materials and can operate stably in an environment of -40°C to +65°C, suitable for global extreme climate deployment.
