Frequency range: 26.5- 28MHz SWR: ≤1.2:1 Max. power: 35W continuous 250W Short time Bandwidth at S.W.R. 2:1: 1900KHz Impedance: 50ohm Whip length: 1200mm Adjustment: 0~90° Cable Length: RG58/157" Po...
See Details1. Technical standard system of VHF maritime antenna
As the "lifeline" of maritime communications, VHF maritime antennas strictly follow international communication standards. The ITU-R M.493 protocol clearly stipulates core parameters such as channel allocation, modulation mode and transmission power to ensure communication compatibility in global waters. For example, the CH16 emergency channel is forced to remain in standby mode for 24 hours, and the antenna standing wave ratio (VSWR) must be stable below 1.5:1 to avoid power loss caused by signal reflection. The radiation efficiency of antenna systems certified by GMDSS must reach more than 95%, and the signal can be fully transmitted even in typhoon weather.
2. Propagation mechanism advantages in marine environments
Electromagnetic waves in the VHF frequency band (156-174MHz) show unique advantages in the marine environment. Its line-of-sight propagation formula d=4.12√h (h is the antenna height, unit: meter) shows that an antenna installed on a 30-meter mast can achieve a theoretical communication distance of 22 nautical miles. When electromagnetic waves are reflected by the sea surface to form interference waves, the signal strength can be increased by 3-5dB. The measured data of the Strait of Malacca in 2018 showed that under the "atmospheric waveguide" effect formed by hot and humid air, the communication distance exceeded 60 nautical miles, far exceeding the performance limit of similar land equipment.
3. Professional-grade structure and protection design
The top-level VHF maritime antenna uses a 316L stainless steel radiator, which has a 6-fold higher resistance to chloride ion corrosion than 304 stainless steel, and is still rust-free after passing the ISO 9227 standard 2000-hour salt spray test. The sealing structure adopts a dual redundant design: the outer silicone O-ring is waterproof, and the inner nitrogen-filled cavity is anti-condensation, reaching the IPx8 protection level. In order to cope with the 12-level wind force (60m/s), the antenna base adopts a fluid-mechanically optimized fin structure, combined with aviation-grade titanium alloy fixing bolts, and the displacement in the vibration test is only 1/8 of that of the civil antenna.
4. Performance comparison with civil antennas
In the comparative test of North Sea fishing boats, professional VHF antennas showed overwhelming advantages:
Gain difference: 6dB high gain design expands the signal coverage radius to 1.7 times that of civil products (3dB)
Low temperature performance: In the extremely cold environment of -30℃, the civil antenna cable was brittle and fractured, while the maritime antenna still maintained VSWR<1.3
Emergency response: DSC distress call response time is 1.8 seconds, 3 times faster than the civil system, to win the key window for the golden rescue period
5. Typical application scenarios and configuration solutions
In the Brazilian oil drilling platform project, engineers used spatial diversity technology to install two sets of antennas on the diagonal of the derrick. When the main antenna is blocked by the equipment, the system automatically switches to the secondary antenna, increasing the communication availability from 87% to 99.6%. The ship traffic management system of Singapore Port uses a dynamic power control algorithm to coordinate the communication of 200 ships within 1 square kilometer, and the channel conflict rate is reduced to 0.2%.
VI. Installation Specifications and Maintenance Procedures
Mast installation must follow the 30° clearance rule: With the antenna as the center, there must be no metal obstacles within the 30° elevation angle. The grounding system must use a multi-strand tinned copper cable with a cross-sectional area of ≥16mm², and install an RF grounding ring to eliminate static electricity accumulation. Maintenance personnel should use a vector network analyzer to detect the VSWR curve every quarter. When the standing wave ratio suddenly changes by more than 0.3, the joint sealing must be checked immediately.
VII. Technology Evolution and Innovation Direction
The latest generation of products has achieved three-band fusion:
VHF voice communication (156-158MHz)
AIS positioning (161.975-162.025MHz)
L-band satellite backhaul (1.5-1.6GHz) Through dielectric resonator loading technology, a single antenna can cover 3 frequency bands, and the size is 60% smaller than the traditional combination solution. Tests in Norway in 2023 showed that the design reduced the weight of the ship communication system from 23kg to 9.8kg and reduced power consumption by 42%.
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