• 

  Metasurface reflector (MS)

  We are able to achieve a broad coverage of the reflection amplitude-phase by utilizing a novel metasurface unit cell architecture. The reflection magnitude can thus be independently controlled. A full-wave simulation's findings reveal good conformance to the requirements. For each resonator, an equivalent circuit model was created, which gives us more understanding of the reflection control mechanism.

  
  

  The coupled resonator configuration serves as the foundation for the novel metasurface unit cell architecture. A tunable capacitor and tunable resistor individually regulate each unit cell. The resistance value must be changed across the surface while the capacitance value is selected from lookup tables.

  
  

  The MS reflector is combined with a two-element MIMO antenna unlike Low PIM Antenna in the proposed design. For the first two bands, this design improves antenna gain and simulated gain. Additionally, the CCL value is modest.

  
  

• 

  Wideband MIMO antennas

  Wideband MIMO antennas are being designed and made using a variety of methods. These methods include altering the radiating patch's length, changing the patch, and adding slots to the patch.

  
  

  The characteristics of each component must be taken into account when designing a MIMO antenna as well as Antenna Splitter to achieve maximum efficiency. The way the various components interact must also be taken into account. Additionally, wideband operation must be possible with the design. The design that is presented here is meant to offer the best of both worlds in a wide band MIMO antenna.

  
  

  The radiating patch is changed to create a dual band MIMO antenna. The L-shaped branch's length and width are adjusted to achieve this. Additionally, at a distance of L 11 from the center of the ground plane, a T-shaped slot is inserted.

  
  

• 

  Low back and side propagation

  To enhance the low back and side propagation of MIMO antennas, various techniques are used. These methods include metasurface and decoupling networks (MS). MS is a novel substance that boosts antenna performance.

  
  

  A two-inverter structure is the foundation of a decoupling network. As a result, there is very high isolation between MIMO terminals. However, there needs to be as little coupling as possible between MIMO components. Incorporating slots or adding a stub to the ground plane can both reduce mutual coupling.

  
  

  This article proposes a brand-new MIMO antenna design with high gain and isolation. Future 5G applications are a good fit for this MIMO antenna. The relative permittivity of the Roger 4350B substrate, on which it is constructed, is 3.66.

  
  

  To improve the isolation between the MIMO components, a four-element, symmetrical design is used. The antenna's radiation patch is divided into two frequency bands, and the radiators emit radiation in a radial pattern. To extend the current path, slots have been etched into the radiating patches.

  
  

Why choose Hefei Topwave MIMO Antenna?

• 1.Topwave Telecom, Global Leading passives Designer

  It is well known that Hefei Topwave Telecom Co., Ltd. manufactures and designs passive RF equipment. Power tappers, power splitters, directional couplers, and hybrid couplers with adjustable frequencies are all part of Topwave Telecom's product line. High quality is always desired.

• 2. Professional Wireless communication Equipment Producer

  In a variety of crucial communications networks for emergency communications services in public safety fields like fire, police, or other governmental agencies, Topwave Telecom's VHF, HHF, and PS700/800MHz frequency-band components are widely used. Police agencies need to act quickly in emergencies. Topwave is aware that when designing products for public safety, reliability is always a key consideration.

• 3. High Lever, Superior Quality Manufacturer

  Topwave is a market leader in the production of telecom and RF products like RF Filter, providing networking and communication services to clients all over the world. We produce and distribute high-performance antennas with excellent performance that are of the highest caliber. We are Hefei's largest supplier of high-quality 5G communications equipment. Topwave's technological innovation has turned out to be a significant game changer in the telecommunications industry. Our expertise is in designing products, producing them, trading them, and providing connectivity-enhancing services.

• 4. OEM and ODM service Provider

  In addition to providing other components for base station radios, Hefei Topwave Telecom Co., Ltd. also provides antennas. We can give you all the help you need with these cutting-edge in-building communications systems. Indoor and outdoor solutions are eligible for our DAS installation services. Topwave Telecom is your dependable strategic business partner and your go-to source for RF in the telecommunications industry.

Related product categories

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Beam steering

Beam steering antennas are necessary for a number of wireless communication systems and equipment. Numerous applications, such as airborne, tracking, and mobile communications, use these antennas. These antennas can be made in a number of different ways, such as passive, active, or electronics-integrated models.

Radio transmission performance in mobile communications systems like in Sector Panel Antenna may be enhanced by the use of multiple antenna arrays. A high gain antenna beam can be directed in the desired direction, in particular, with the aid of beam steering. Beam steering also has the ability to lessen interference.

A typical mobile communications system needs to perform at a high level. These base stations need to be able to handle lots of users. Additionally, they must be able to work at high data rates. These systems are also upgrading to the 5G protocol, which offers greater bandwidth and lower latency.

Not finding what you're looking for? Contact our consultants for more available products.