4.9 - 6.4 Ghz 32 Dbi Mimo Dish Antenna

RF-DP-D4964-32HV from RFLINK ANTENNA is an appealing MIMO Parabolic Antenna due to its high front-to-back ratio and extremely high gain (32dBi). This antenna is designed for high-performance wireless communication systems, providing excellent signal strength and coverage for long-distance transmission. It is particularly suitable for 5G networks, wireless backhaul, and point-to-point communication systems where reliability and performance are critical.

Frequency Range(MHz):4900-6400 MHz (Covers key 5G frequency bands for high-speed data transmission and reliable communication)

Gain:32 dBi (High gain design ensures superior signal strength and extended coverage range)

V.S.W.R:≤1.8 (Low VSWR guarantees efficient power transfer and minimal signal loss)

Center frequency characteristic impedance (Ω):50 (Standard impedance for compatibility with most wireless communication systems)

Connector Type:N-Female (Durable and reliable connector for secure installation and optimal performance)

The RF-DP-D4964-32HV antenna combines advanced parabolic reflector technology with precision feed systems to deliver superior RF performance. Its robust construction ensures stable operation in various environmental conditions, making it an ideal choice for critical communication infrastructure. The high front-to-back ratio minimizes interference while maximizing signal directionality, ensuring clear and reliable transmission even in complex electromagnetic environments.

1. 5G Networks  

   Application : This antenna is ideal for 5G mid-band deployments, including fixed wireless access (FWA) and backhaul links.  

   Use Case : Connecting 5G base stations to remote locations or providing high-speed internet to homes and businesses.

2. Point-to-Point (PtP) and Point-to-Multipoint (PtMP) Communication

    Application : Used for establishing long-distance wireless links between two or more locations.  

   Use Case : Connecting offices, campuses, or remote sites with high-speed data transmission.

 3. Wireless Internet Service Providers (WISPs)  

   Application : Suitable for WISPs to deliver broadband internet to rural or underserved areas.  

   Use Case : Providing reliable, high-capacity connections to customers over long distances.

 4. Public Safety and Emergency Communication 

   Application : Used in public safety networks operating in the 4.9 GHz band (e.g., FirstNet in the U.S.).  

   Use Case : Ensuring reliable communication for first responders and emergency services.

5. Industrial and IoT Connectivity 

   Application : Supports industrial IoT (IIoT) applications requiring high-speed, low-latency connections.  

   Use Case : Connecting sensors, cameras, and other devices in smart factories or remote monitoring systems.

6. Military and Defense Communication 

   Application : Used in secure, high-performance communication systems for defense applications.  

   Use Case : Establishing secure links for command and control or surveillance systems.

 7. Satellite Communication (Satcom)

  Application : Can be used for satellite ground stations operating in the 4.9 - 6.4 GHz range.  

  Use Case : Transmitting and receiving data from satellites for broadcasting, remote sensing, or scientific research.

 8. High-Capacity Backhaul for Mobile Networks

   Application : Provides high-capacity backhaul for 4G/LTE and 5G networks.  

   Use Case : Connecting cell towers to the core network with minimal latency and high reliability.

Dongguan RenFeng Electronic Technology Co.,Ltd

Email: bellasu@rflink.net.cn

Mobile Phone: +86 1379-4978-989

Address: No.1 Sankeng Qinghutou Tangxia Dongguan Guangdong China

1. What is the range of this antenna?

The range depends on factors like transmit power and environment, but with 32 dBi gain, it is ideal for long-distance communication, typically covering several kilometers in line-of-sight (LOS) scenarios.

2. Is this antenna suitable for 5G networks?

Yes, the 4.9 - 6.4 GHz frequency range aligns with 5G mid-band spectrum, making it perfect for 5G fixed wireless access (FWA) and backhaul applications.

 3. What does MIMO mean, and why is it important? 

MIMO (Multiple Input, Multiple Output) allows multiple data streams, improving signal reliability, speed, and capacity, making it ideal for high-bandwidth applications like 5G and wireless broadband.