2026³â 07¿ù 13ÀÏ ¿ù¿äÀÏ
 
 
  ÇöÀçÀ§Ä¡ > ´º½ºÁö´åÄÄ > Science & Technology

·£¼¶¿þ¾îºÎÅÍ µÅÁöµµ»ì±îÁö... ³ë·ÃÇØÁø »ç±âÇà°¢

 

Á¤Ä¡

 

°æÁ¦

 

»çȸ

 

»ýȰ

 

¹®È­

 

±¹Á¦

 

°úÇбâ¼ú

 

¿¬¿¹

 

½ºÆ÷Ã÷

 

ÀÚµ¿Â÷

 

ºÎµ¿»ê

 

°æ¿µ

 

¿µ¾÷

 

¹Ìµð¾î

 

½Å»óǰ

 

±³À°

 

ÇÐȸ

 

½Å°£

 

°øÁö»çÇ×

 

Ä®·³

 

Ä·ÆäÀÎ
Çѻ츲 ¡®¿ì¸®´Â ÇѽҸ²¡¯ ½Ò ¼Òºñ Ä·ÆäÀÎ ½Ã...
1000¸¸¿øÂ¥¸® Àΰø¿Í¿ì, °Ç°­º¸Çè Áö¿ø ¡®Æò...
- - - - - - -
 

A World¡¯s First: Murata Enables Better Wi-Fi 6E and Wi-Fi 7 Antenna Design with Cutting-Edge Parasitic Element Coupling Device

´º½ºÀÏÀÚ: 2023-12-07

KYOTO, JAPAN-- Murata Manufacturing Co., Ltd. (TOKYO: 6981) (ISIN: JP3914400001) has announced its new Parasitic Element Coupling Device. This state-of-the-art solution improves antenna efficiency by magnetically coupling the parasitic element with the antenna and is the world’s first solution designed for Wi-Fi 6E and Wi-Fi 7 products. For designers of smartphones, tablets, network routers, game consoles, and other compact electronics, it enables them to build more efficient antennas - a key requirement for many modern space-constrained devices.

To develop products conforming to Wi-Fi 6E and Wi-Fi 7 standards, which utilize high-speed wireless communication, multiple high-performance antennas must be installed in electronic devices to improve communication speed and quality. However, as the dimensions of heatsinks and batteries expand, as processors become more advanced, the available space for mounting antennas tends to decrease.

Consequently, there is a need for smaller antennas. But there is a technical limitation, in that the efficiency of wide-band antennas decreases when they are miniaturized. Therefore, designers need a solution that achieves both miniaturization and high performance.

Murata’s solution is a parasitic element coupling device, made with its multilayer technology as a four-terminal surface-mount component of just 1.0 x 0.5 x 0.35mm.

Murata’s parasitic element coupling device connects the feeding antenna* to its parasitic elements more effectively than is possible through free space. It acts as a tiny coupling device whose compact size enables strong coupling performance without the use of magnetic materials, which would be inappropriate at the targeted operating frequencies. One side of the coupling device is connected, at very low insertion loss, between a device’s RF circuitry and its main antenna. The other side is connected between the ground and the parasitic element. The resultant, more direct coupling enables the resonance characteristics of the parasitic element to be added to those of the feeding antenna. As a result, it enables more efficient operation across a broader frequency range or on multiple discrete bands.

The device helps to combat that when an antenna is made smaller, the coupling between it and the parasitic elements is reduced, while the coupling between the parasitic elements and the ground is increased. By sustaining the coupling between the feeding antenna and parasitic element, parasitic element coupling device enables designers to use miniaturized antenna design methods without impacting the communication band of efficiency.

The feeding antenna can cause an impedance mismatch when used over a wide band, leading to a degradation in wireless performance. In addition, when an antenna with a mismatched impedance is connected to a communication circuit using a long cable, the long cable can promote the impedance mismatch, causing larger insertion loss than expected and significantly reducing wireless communication performance. By using the device, you can improve antenna matching and reduce performance degradation in wireless communications even when using long cables.



 Àüü´º½º¸ñ·ÏÀ¸·Î

Galderma Releases Global Survey on Evolving Patient and HCP Expectations in Anti‑Wrinkle Treatments
LG Electronics Establishes Robotics Business Center to Accelerate Future Growth
FIFA World Cup¢â Fans Embrace Referee View as Lenovo AI Brings Viewers Closer to the Pitch
VeriSilicon Drives Commercial Adoption of AV2 Across Next-Generation Video and Streaming Applications
The Open Group Releases OSDU¢ç Data Platform Standard, Version 1.0
Online Video Subscription Reached 2.24 Billion in 2025 Ahead of Projected Slowdown in 2026
SLB Collaborates with Qualcomm on Edge AI Solutions for Energy Operations

 

New Method Enables Structural Determination of Diverse Phenolic Compou...
GlobalFoundries, Qualinx Unveil Europe¡¯s First Sovereign Flow for Sec...
Netflix to Reach 400 Million Subscribers by 2031, Maintaining Global S...
IQM Opens First U.S. Quantum Tech Center at University of Maryland Dis...
HistoSonics Advances Histotripsy, Submits FDA Application for Kidney T...
Boomi Adds Snowflake Cortex Agents Support to Agentstudio to Enable Un...
NIQ Unveils Six New AI-Powered Capabilities at C360, Executing on Its ...

 


°øÁö»çÇ×
¹Ìµð¾î¿Í M• Mediaour ØÚ体ä² ØÚô÷ä² ¿¥¿À MO ØÚä²
¾Ë¸®¾Ë A⋮⋮⋮ Allial Áß¹® Ç¥±â ä¹××尔 ä¹××ì³
À£ÇÁ·Ò W⋮⋮⋮ Welfrom 卫ÜØ êÛÝ£
¹ÙÀÌ¿ÀÀÌ´Ï B⋮ BIOINI ù±药研 ¹ÙÀÌ¿ÀÀÌ´Ï·¦ BIOINILAB ...
º£³×ÀÍ ¡Õ Beneik 宝Ò¬ìÌ, À̺ñÁî eBizh æ¶币òª EZ æ¶òª
¿¡³ÊÀÌÀ¯ ¡Õ¡Õ EnerEU 额Òö äþÒö
´º½ºÁö Áß¹®Ç¥±â´Â À½Â÷ Ç¥±â¹æ½Ä '纽ÞÙó¢ ´Ï¿ì½ºÁö'
¾Ë¸®À¯ºñ ^v Alliuv ä¹备 AV ä¹êó备, ¾Ë¶ã =^= Althle ä¹÷åìÌ
´ºÆÛ½ºÆ® New1st Áß¹® Ç¥±â 纽ììãæ(¹øÃ¼ Òïììãæ), N1 纽1
¿£ÄÚ½º¸ð½º ¡ÕC À̾¾ 'EnCosmos : EC' Áß¹® Ç¥±â ì¤ñµ
¾ÆÀ̵ð¾î·Ð Idearon Áß¹® Ç¥±â ì¤îè论 ì¤îèÖå
¾ËÇÁ·Ò ^ Alfrom ä¹尔ÜØ ä¹ì³ÜØ, ¿ÃÇÁ·Ò A⋮⋮ Allfrom &...

 

ȸ»ç¼Ò°³ | ÀÎÀçä¿ë | ÀÌ¿ë¾à°ü | °³ÀÎÁ¤º¸Ãë±Þ¹æÄ§ | û¼Ò³âº¸È£Á¤Ã¥ | Ã¥ÀÓÇѰè¿Í ¹ýÀû°íÁö | À̸ÞÀÏÁÖ¼Ò¹«´Ü¼öÁý°ÅºÎ | °í°´¼¾ÅÍ

±â»çÁ¦º¸ À̸ÞÀÏ news@newsji.com, ÀüÈ­ 050 2222 0002, ÆÑ½º 050 2222 0111, ÁÖ¼Ò : ¼­¿ï ±¸·Î±¸ °¡¸¶»ê·Î 27±æ 60 1-37È£

ÀÎÅͳݴº½º¼­ºñ½º»ç¾÷µî·Ï : ¼­¿ï ÀÚ00447, µî·ÏÀÏÀÚ : 2013.12.23., ´º½º¹è¿­ ¹× û¼Ò³âº¸È£ÀÇ Ã¥ÀÓ : ´ëÇ¥ CEO

Copyright ¨Ï All rights reserved..