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How to work out antenna gain?
In microwave communication systems, antenna gain is a key indicator for measuring radiation performance. As a professional microwave antenna supplier, we are well aware of the importance of accurately calculating and measuring antenna gain for system optimization. This a...Read more -
What is flaring in a horn antenna?
The Critical Role of Flaring in Horn Antenna Design In the realm of microwave engineering, the flared structure of horn antennas serves as a fundamental design element that significantly impacts system performance. As a key feature offered by leading Microwave Antenna Su...Read more -
The Ubiquitous Horn Antenna: A Cornerstone of Microwave Systems
Abstract: As a fundamental component in microwave engineering, horn antennas have achieved unparalleled adoption across diverse applications due to their exceptional electromagnetic characteristics and structural reliability. This technical brief examines their predomina...Read more -
Analysis of the core application scenarios and technical advantages of horn antennas
In the field of wireless communication and electromagnetic technology, horn antennas have become core components in many key areas due to their unique structural design and excellent performance. This article will start from seven core application scenarios and deeply an...Read more -
Optimal Antenna Gain: Balancing Performance and Practical Constraints
In microwave antenna design, optimal gain needs to balance performance and practicality. Although high gain can improve signal strength, it will bring problems such as increased size, heat dissipation challenges and increased costs. The following are key considerations: ...Read more -
【RFMiso product recommendation】——(4.4-7.1GHz)Dual dipole antenna array
Manufacturer RF MISO focuses on the full-chain technology development and manufacturing of antennas and communication devices. The company brings together a research and development team led by a PhD, an engineering force with senior engineers as the core, and a...Read more -
RFMiso product recommendation——0.8-18GHzBroadband Dual Polarized Horn Antenna
RM-BDPHA0818-12 broadband dual-polarized horn antenna, the antenna adopts innovative lens structure design, covers 0.8-18GHz ultra-wideband frequency band, realizes 5-20dBi intelligent gain adjustment, and comes standard with SMA-Female interface for plug-and-play. It is...Read more -
RFMiso product recommendation——26.5-40GHz Standard Gain Horn Antenna
The standard gain horn antenna is a reference device for microwave testing. It has good directivity and can concentrate the signal in a specific direction, reducing signal scattering and loss, thereby achieving longer-distance transmission and more accurate signal recept...Read more -
RFMiso product recommendation——18-40GHz Circular Polarization Horn Antenna
RM-CPHA1840-12 circularly polarized horn antenna, the antenna operates at a frequency of 18-40GHz, has a gain of 10-14dBi and a low standing wave ratio of 1.5, built-in circular polarizer, waveguide converter and conical horn structure, with full-band gain uniformity, sy...Read more -
Relationship between antenna gain, transmission environment and communication distance
The communication distance that a wireless communication system can achieve is determined by various factors such as the various devices that make up the system and the communication environment. The relationship between them can be expressed by the following communicati...Read more -
Are Microwave Antennas Safe? Understanding Radiation and Protection Measures
Microwave antennas, including X-band horn antennas and high-gain waveguide probe antennas, are inherently safe when designed and operated correctly. Their safety depends on three key factors: power density, frequency range, and exposure duration. 1. Radiation Sa...Read more -
RFMiso product recommendation——26.5-40GHz Standard Gain Horn Antenna
The RM-SGHA28-20 is a linearly polarized, standard-gain horn antenna operating from 26.5 to 40 GHz. It offers a typical gain of 20 dBi and a low 1.3:1 standing wave ratio. Its typical 3dB beamwidth is 17.3 degrees in the E-plane and 17.5 degrees in the H-plane. The anten...Read more
