English
GLY450
Asialeren
8517710000
50pc
accepted
10000pc/day
| Quantity: | |
|---|---|
| PDF Export | |
Electrical Specifications | |
Frequency Range | 450-470MHz |
VSWR | ≤1.5 |
Gain | 10.5dBi |
Horizontal beam width | 55° |
Vertical beam width | 46° |
Front-to-back ratio | ≥16dB |
Polarization | Vertical or Horizontal |
Input Impedance | 50Ω |
Maximum input power | 50W |
Lightning protection | DC Ground |
Mechanical Specifications | |
Input connector type | TNC |
Installation | Pole-holding Ф40-Ф70 |
Dimensions | 830X 370 |
Antenna weight | 0.8kg |
Radiating Element Material | AI |
Operating temperature | -40°C to +70 °C |
Differences between similar products
| P/N | GLY450 | GLY900 |
| Frequency-Mhz | 450-470 | 806-960 |
| Gain-dBi | 10.5 | 14 |
| Antenna Dimension-mm | 830X 370 | 1145×190×55 |
Product Introduction
1. High-Gain Directional Control in the Industrial Band
Optimized specifically for the 450-470MHz industrial control frequency band, it features 10.5dBi high gain and a 55° narrow horizontal beam, increasing penetration of metal obstacles in factories by 50%.
2. Dual-Polarized Interference Resistant Design
Vertical or horizontal polarization options are available (factory customization). A 16dB front-to-back ratio effectively isolates equipment from electromagnetic interference, making it particularly suitable for inverter-intensive environments.
3. Stable Operation over an Ultra-Wide Temperature Range
Extremely resistant to temperatures from -40°C to +70°C (5°C higher than the industry average). The aluminum radiator conducts heat to accelerate frost melting, ensuring zero power loss in extreme cold and heat environments.
4. Vibration- and Corrosion-Resistant Structure
TNC military-grade connectors resist vibration and fall-off. The anodized aluminum driver has passed a 2000-hour salt spray test, extending its service life in chemical industrial zones by three times.
5. Fast Pole Deployment
Adaptable to Φ40-70mm poles, it features a lightweight 0.8kg design and streamlined design. It reduces wind loads by 35% in winds of level 8, and can be installed by one person in just 5 minutes.
Application Scenarios
Industrial IoT Backhaul: Remote Monitoring of Factory PLC Equipment Data
Energy Infrastructure: Wind Turbine Tower Data Collection/Oil Pump Station Control
Railway Dispatching Communications: Directional Coverage for Marshalling Yard Intercom Systems
Smart Agriculture Control: Remote Command Distribution for Large-Scale Irrigation Systems
Port Crane Communications: Real-Time Control of Container Loading and Unloading Equipment
FAQ
Q: How to Choose Polarization?
A: Vertical polarization (default) is suitable for ground-based mobile terminals; horizontal polarization is recommended for fixed point-to-point transmission (requires customization for both ends).
Q: What is the difference between a TNC connector and an N-type connector?
A: The TNC threaded locking design prevents vibration and disengagement, making it more suitable for mobile devices (vehicles/robotic arms). RF performance is comparable to the N-type connector.
Q: Does a narrow beam require precise adjustment?
A: A ±15° pitch adjustment bracket is standard. We recommend using network planning software such as ATTOLL to calculate the azimuth angle. An error >10° results in a 50% gain reduction.
Q: What is the power limit at 70°C?
A: Continuous operation at full power of 50W (non-peak) without derating (measured case temperature of 75°C still meets safety standards).
Q: Can it be used for AM/FM broadcast transmission?
A: Only supports the UHF band. 88-108MHz broadcasting is strictly prohibited (impedance mismatch may burn out the amplifier).
Q: How to deal with ice on the surface?
A: Designed to shed naturally (tilt angle > 22°). Do not knock or scratch. For extremely cold regions, it is recommended to apply antifreeze silicone grease (model GL-ANTIF01).
Q: Does it support phased arrays?
A: 2×2 MIMO can be configured (spacing ≥ 1.2m), but a customized feed network is required.
Electrical Specifications | |
Frequency Range | 450-470MHz |
VSWR | ≤1.5 |
Gain | 10.5dBi |
Horizontal beam width | 55° |
Vertical beam width | 46° |
Front-to-back ratio | ≥16dB |
Polarization | Vertical or Horizontal |
Input Impedance | 50Ω |
Maximum input power | 50W |
Lightning protection | DC Ground |
Mechanical Specifications | |
Input connector type | TNC |
Installation | Pole-holding Ф40-Ф70 |
Dimensions | 830X 370 |
Antenna weight | 0.8kg |
Radiating Element Material | AI |
Operating temperature | -40°C to +70 °C |
Differences between similar products
| P/N | GLY450 | GLY900 |
| Frequency-Mhz | 450-470 | 806-960 |
| Gain-dBi | 10.5 | 14 |
| Antenna Dimension-mm | 830X 370 | 1145×190×55 |
Product Introduction
1. High-Gain Directional Control in the Industrial Band
Optimized specifically for the 450-470MHz industrial control frequency band, it features 10.5dBi high gain and a 55° narrow horizontal beam, increasing penetration of metal obstacles in factories by 50%.
2. Dual-Polarized Interference Resistant Design
Vertical or horizontal polarization options are available (factory customization). A 16dB front-to-back ratio effectively isolates equipment from electromagnetic interference, making it particularly suitable for inverter-intensive environments.
3. Stable Operation over an Ultra-Wide Temperature Range
Extremely resistant to temperatures from -40°C to +70°C (5°C higher than the industry average). The aluminum radiator conducts heat to accelerate frost melting, ensuring zero power loss in extreme cold and heat environments.
4. Vibration- and Corrosion-Resistant Structure
TNC military-grade connectors resist vibration and fall-off. The anodized aluminum driver has passed a 2000-hour salt spray test, extending its service life in chemical industrial zones by three times.
5. Fast Pole Deployment
Adaptable to Φ40-70mm poles, it features a lightweight 0.8kg design and streamlined design. It reduces wind loads by 35% in winds of level 8, and can be installed by one person in just 5 minutes.
Application Scenarios
Industrial IoT Backhaul: Remote Monitoring of Factory PLC Equipment Data
Energy Infrastructure: Wind Turbine Tower Data Collection/Oil Pump Station Control
Railway Dispatching Communications: Directional Coverage for Marshalling Yard Intercom Systems
Smart Agriculture Control: Remote Command Distribution for Large-Scale Irrigation Systems
Port Crane Communications: Real-Time Control of Container Loading and Unloading Equipment
FAQ
Q: How to Choose Polarization?
A: Vertical polarization (default) is suitable for ground-based mobile terminals; horizontal polarization is recommended for fixed point-to-point transmission (requires customization for both ends).
Q: What is the difference between a TNC connector and an N-type connector?
A: The TNC threaded locking design prevents vibration and disengagement, making it more suitable for mobile devices (vehicles/robotic arms). RF performance is comparable to the N-type connector.
Q: Does a narrow beam require precise adjustment?
A: A ±15° pitch adjustment bracket is standard. We recommend using network planning software such as ATTOLL to calculate the azimuth angle. An error >10° results in a 50% gain reduction.
Q: What is the power limit at 70°C?
A: Continuous operation at full power of 50W (non-peak) without derating (measured case temperature of 75°C still meets safety standards).
Q: Can it be used for AM/FM broadcast transmission?
A: Only supports the UHF band. 88-108MHz broadcasting is strictly prohibited (impedance mismatch may burn out the amplifier).
Q: How to deal with ice on the surface?
A: Designed to shed naturally (tilt angle > 22°). Do not knock or scratch. For extremely cold regions, it is recommended to apply antifreeze silicone grease (model GL-ANTIF01).
Q: Does it support phased arrays?
A: 2×2 MIMO can be configured (spacing ≥ 1.2m), but a customized feed network is required.
