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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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What is a Directional Coupler?
Apr , 24 2025
In RF and microwave systems, a directional coupler is an essential passive component that enables signal sampling, monitoring, and routing without disturbing the main transmission line. This article explains what a directional coupler is, how it works, and why it's a critical element in modern wireless communication systems. What is a Directional Coupler? A directional coupler is a four-port RF de...
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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 Does a Mismatched Coupled Port Actually Affect in a Directional Coupler?
Jul , 23 2025
Directional couplers are widely used in RF systems for signal sampling, power monitoring, VSWR detection, and PIM testing. While these components are passive by nature, their performance is highly dependent on how each port is terminated—especially the coupled port. In real-world applications, improper termination of the coupled port—either by leaving it open, using poorly matched devices, or low-...
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Passive Component Bottlenecks and Solutions in Operator Networks
Sep , 03 2025
In operator network deployment, passive components play a crucial role in ensuring stable and efficient RF signal transmission. With the rapid evolution of 5G, DAS (Distributed Antenna Systems), and private networks, the performance requirements for passive devices have become more stringent. However, components such as power splitters, couplers, and combiners often encounter performance bottlenec...
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Mastering Power Splitter Design: From Principle to Engineering Practice
Oct , 11 2025
In RF and microwave systems, the power splitter is a core passive component responsible for dividing an input signal into multiple outputs with minimal loss and perfect impedance balance. From cellular base stations to satellite networks and RF test systems, the power splitter ensures signal integrity across transmission paths. 1. Basic Principle of Power Splitters A power splitter divides an inpu...
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