Product Overview: Maximizing Mid-Band 5G Performance
This robust directional panel antenna is engineered for optimal performance across the critical 3.7 GHz to 4.2 GHz frequency range, which encompasses key mid-band 5G deployment spectrums (such as C-Band extensions and private network frequencies). Featuring an impressive nominal 18 dBi (±1 dBi) gain, this antenna is designed to significantly enhance signal strength, increase coverage, and maintain reliable data throughput over long distances. Built with a durable, waterproof construction, it is the ideal choice for permanent outdoor installations demanding high efficiency and resilience.
Technical Specifications & Gain Advantage (E-A-T Optimization)
The antenna’s high-gain design is its primary feature, directly addressing the challenge of long-distance communication and signal attenuation. The 18 dBi gain provides a narrow beamwidth, which concentrates the radio frequency energy in a specific direction. This concentration not only boosts the signal strength at the receiver but also minimizes interference from other directions.
Frequency Range: 3.7 GHz – 4.2 GHz (Optimized for demanding mid-band applications)
Nominal Gain: 18 dBi (±1 dBi)
Polarization: (Specify, e.g., Vertical or Dual-Polarized) – Crucial detail for MISO/MIMO setups.
VSWR: (Specify typical value, e.g., < 1.5:1) – Indicates excellent impedance matching for minimal power reflection.
Target Application Scenarios (Problem-Solving Focus)
This directional panel antenna is perfectly suited for Point-to-Point (PtP) and high-throughput Point-to-Multipoint (PtMP) links where maximizing distance and throughput is critical.
Fixed Wireless Access (FWA) & Rural Broadband: Essential for extending high-speed 5G or proprietary network services to remote, underserved areas by creating a focused, high-power backhaul link between a core network site and a customer premise.
Private 5G/LTE Networks (e.g., Industrial & Logistics): Used in large corporate campuses, ports, mines, or factory floors to establish a dedicated, reliable backbone for connecting critical Industrial IoT (IIoT) devices, automated guided vehicles (AGVs), and high-resolution video surveillance systems.
Backhaul for Surveillance & Smart City Infrastructure: Provides the necessary bandwidth and reliable connection for high-capacity data transmission from remote security cameras, traffic monitoring systems, or public Wi-Fi hot spots back to a central control center.
Durable Outdoor Waterproof Design (Core Quality Signal)
Designed for continuous operation in harsh environments, this antenna features a rugged, UV-stabilized ABS radome and a heavy-duty mounting system. The IP-rated waterproof enclosure (specify IP rating, e.g., IP67) ensures complete protection against dust ingress and high-pressure water jets, safeguarding performance against extreme weather conditions, including heavy rain, snow, and high winds. This durability guarantees long-term reliability and reduces maintenance costs, aligning with the "evergreen" content focus of modern SEO.
Installation and Optimization Tips (User Value & Authority)
To achieve the maximum 18 dBi gain and a successful link:
Precise Alignment: Due to the narrow beamwidth, accurate alignment between the transmitting and receiving antennas is mandatory. Use a spectrum analyzer or network alignment tool for optimization.
Minimize Cable Loss: Always use the shortest possible run of high-quality, low-loss cable (e.g., LMR-400 equivalent or better) to connect the antenna to the radio equipment. This preserves the signal strength achieved by the high-gain antenna.
Clear Line of Sight (LoS): Ensure an unobstructed line of sight to the target receiver to prevent signal diffraction and fading, which are particularly detrimental at these higher frequencies.
