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Analysis of Directional Coupler Applications: Core Technology in Modern Communication and Testing Systems
Mar , 26 2025
In wireless communications, radar systems, RF testing, and other fields, the directional coupler stands as a critical passive component, enabling unique signal separation and monitoring capabilities that make it indispensable in modern electronic systems. This article delves into the working principles, core advantages, and real-world applications of directional couplers across industrie...
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5G-Advanced Accelerates New Requirements for In-building RF Infrastructure
Apr , 28 2025
As 5G-Advanced (5G-A) technology emerges, it brings higher speeds, lower latency, and smarter network capabilities, reshaping expectations for in-building wireless systems. Modern facilities—such as offices, airports, and hospitals—now require more advanced Distributed Antenna Systems (DAS) capable of supporting higher frequency bands and broader bandwidths. Traditional infrastructure must evolve....
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Which Is Better: Directional Coupler or Tapper?
May , 08 2025
In RF and microwave systems, power distribution is a critical aspect that directly impacts system performance, reliability, and design flexibility. Two of the most commonly used passive components for signal splitting and power monitoring are directional couplers and tappers. While they serve similar purposes in many systems, they differ significantly in structure, application, and performance. Un...
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What common products and technical equipment are used in radio systems?
May , 10 2025
What common products and technical equipment are used in radio systems? Radio systems are widely used in communication, broadcasting, radar, navigation and other fields. Their core components include transmission, reception, signal processing and antenna equipment. The following are the key products and technical equipment commonly used in radio systems: 1. RF transmission equipment (1) Radio tran...
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What Is the Difference Between a Power Divider and a Power Splitter?
Jun , 18 2025
1. Basic Function — What Do They Both Do? At a high level, both power splitters and power dividers are passive RF components designed to: Take one input signal Split it into two or more output signals Maintain specific impedance (typically 50Ω or 75Ω) Preserve signal integrity as much as possible These devices are commonly used in test setups, antenna feeds, distributed antenna systems (DAS), and ...
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Understanding Low PIM in RF Passive Components: Why It Matters
Jul , 17 2025
What is PIM and Why "Low" PIM is Critical? PIM stands for Passive Intermodulation, a form of signal distortion that occurs when two or more high-power RF signals mix within a passive component—such as connectors, cables, power splitters, couplers, or antennas—and create unwanted interference at new frequencies. These new frequencies can degrade system performance, reduce data throughput, and affec...
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Public Safety DAS Solutions: Key RF Components and Applications
Jul , 19 2025
In the fast-evolving communication industry, Public Safety Distributed Antenna Systems (DAS) play a critical role in ensuring reliable coverage for emergency responders and critical infrastructure. These systems rely on advanced RF components to optimize signal distribution. Three key elements—Yagi Antenna, Power Divider, and Directional Coupler—are essential for their functionality. 1. Yagi Anten...
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How to Avoid PIM Interference in DAS Systems
Aug , 07 2025
In Distributed Antenna Systems (DAS), Passive Intermodulation (PIM) is one of the most common yet overlooked causes of performance degradation. While DAS networks are designed to enhance wireless coverage and capacity, PIM can severely compromise signal quality, leading to dropped calls, reduced data throughput, and costly troubleshooting. This article outlines the practical measures and engineeri...
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