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RF/マイクロ波デザイン

Agilentのデザイン・ソフトウェアは実績のあるRF/マイクロ波・ソリューションです。高精度のモデルを備え、さらに、回路/電磁界(EM)/システムのデザインまでカバーできる強力なシミュレーション・テクノロジーを提供しています。Agilentのツールを使用すれば、問題を特定し、最適化し、スケジュールどおりに製品を出荷できます。

RF/マイクロ波デザインの問題

  • サブストレート・レイヤー数の増加、形状の小型化、パッケージ・テクノロジーの複雑化、近接効果によって、デザイナが抱える問題は日に日に難しくなっています。
  • 回路シミュレーションと電磁界シミュレーションがシームレスに統合されたツールは、スケマティックの入力から製造/検証までのフローを支援します。
  • 進化を続けるシミュレーション・テクノロジーによって、シミュレーションの精度が向上し、速度も大幅に向上しています。

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並べ替え
New ADS DDR4 Compliance Test Bench for Solving the Simulation-Measurement Correlation Challenge 
Agilent introduces Advanced Design System DDR4 Compliance Test Bench, which enables a complete workflow for DDR4 engineers from simulation of a candidate design through measurement of the finished prototype. The solution is ideal for semiconductor companies developing DDR controller IP; those developing DRAM chips and DIMMs; and OEMs integrating the controller and DIMM into a system using PCB technology.

プレス資料 2014-06-30

 
Genesys 2014 Delivers Breakthrough Modulated RF Analysis for Circuit, System Design 
Agilent announces the latest release of Genesys 2014.

プレス資料 2014-06-02

 
Agilent Technologies to Attend IMS with Leading-Edge RF/Microwave Design and Measurement Solutions 
Agilent announces it will attend the IEEE MTT-S International Microwave Symposium 2014 (Booth 1133), June 1-6, in Tampa, Fla. The company will demonstrate over 20 of its newest design and measurement solutions.

プレス資料 2014-05-21

 
Advanced Design System Selected by GIT Japan for Front-to-Back MMIC and Silicon RFIC Implementation 
GIT Japan Inc., a provider of advanced interface technologies between people and information, and a competence center for ultrawideband (UWB) chipset and module development, has selected the ADS platform for complete GaAs/GaN- and silicon-based RFIC/MMIC implementations.

プレス資料 2014-05-08

 
Millimeter-Wave FCC Part 15 Transmitter Compliance – OML 
Millimeter-Wave FCC Part 15 Transmitter Compliance Test Solution from OML and Agilent

ソリューション概要 2014-05-07

 
Millimeter-wave S-parameter measurements – OML 
Millimeter-wave S-parameter measurements from OML and Agilent

ソリューション概要 2014-05-07

 
Millimeter-wave signal generator – OML 
Millimeter wave signal generator from OML and Agilent

ソリューション概要 2014-05-07

 
Millimeter-wave spectrum analysis – OML 
Millimeter-wave spectrum analysis from OML and Agilent

ソリューション概要 2014-05-07

 
Agilent Technologies Acquires Electrothermal Analysis Technology from Gradient Design Automation 
Agilent announces its acquisition of electrothermal analysis technology from Gradient Design Automation, the maker of HeatWave electrothermal analysis software.

プレス資料 2014-04-30

 
Magnetic Material Characterization – KEYCOM 
Magnetic Material Characterization Solution from KEYCOM and Agilent.

ソリューション概要 2014-04-30

 
X-Parameter Design Simulation Models - Modelithics 
X-Parameter Design Simulation Models from Modelithics and Agilent.

ソリューション概要 2014-04-30

 
Millimeter Wave Frequency Extension for Vector Network Analyzers – Farran Technology 
Millimeter wave frequency extension solutions for vector network analyzers from Farran Technology and Agilent

ソリューション概要 2014-04-29

 
ADS Videos on YouTube 
Advanced Design System (ADS) Video Library playlist in Agilent EEsof EDA's Channel on YouTube

デモ 2014-03-20

 
Discovering ADS 
A collection of Agilent EEsof EDA ADS video demonstrations and tutorials

デモ 2014-03-20

 
Using ADS to Investigate Optimal Performance of a Cree FET 
This application note documents a workspace that shows how to apply ADS load pull simulations to attain optimal performance of a Cree FET.

アプリケーション・ノート 2014-03-17

PDF PDF 5.41 MB
ADS 30-Second Demos 
Watch these videos to learn about popular usability improvements we’ve made in Advanced Design System (ADS) to increase your productivity.

デモ 2014-03-06

 
Agilent Technologies Unveils New 30-Second Demo Series of User-Inspired ADS 2014 Innovations 
Agilent announces the launch of a new series of 30-second demos on user-inspired innovations to its Advanced Design System 2014 software, the industry’s leading electronic design automation software for RF, microwave and signal-integrity applications.

プレス資料 2014-03-06

 
Agilent EEsof EDA SystemVue 2013 
SystemVueは次世代無線や航空宇宙/防衛/通信システムの物理層(PHY)設計における、システム構築やアルゴリズム開発を効率化する設計支援ソリューションです。

技術概要 2014-03-03

Agilent Software Gives Students Edge in Job Market 
Design tools are getting University of Arizona engineering students certifiably ready for work in the RF and microwave industry.

プレス資料 2014-02-24

 
ADS 2014 Dramatically Improves Design Productivity and Efficiency 
Agilent announces a powerful new version of Advanced Design System software, ADS 2014. Designed to dramatically improve design productivity and efficiency with new technologies and capabilities, ADS 2014 is the software's most significant ADS release to date.

プレス資料 2014-02-20

 
Agilent Technologies Simulation and Modeling Software Selected by Nitronex for High-Power GaN Design 
Agilent announces that Nitronex, a GaAs labs company and leading producer of GaN-on-silicon RF power devices, has selected Agilent to provide a complete GaN design flow that spans both device modeling and circuit simulation.

プレス資料 2014-02-11

 
Agilent Technologies’ LinkedIn ADS User Group Tops 3,000 Members 
Agilent announces that the Agilent EEsof EDA Advanced Design System (ADS) user group on LinkedIn now has over 3,000 members.

プレス資料 2014-02-03

 
ADS Controlled Impedance Line Designer Solves Key Challenges in Designing Chip-to-Chip Links 
Agilent introduces Agilent EEsof EDA’s Controlled Impedance Line Designer. The software product quickly and accurately optimizes stack up and line geometry for multigigabit-per-second chip-to-chip links, using the most relevant metric.

プレス資料 2014-01-27

 
GoldenGate Software Release Brings Wireless Standard-Compliant Design into RFIC Designers’ Hands 
Agilent announces the latest release of GoldenGate, its RFIC simulation, verification and analysis software.

プレス資料 2014-01-06

 
マイクロ波エンジニアのための電磁界ソフトウェア 
電磁界の問題を解くためのすべてのテクノロジーの中で、モーメント法(MoM)は最も実装が難しいものの1つです。その理由は、グリーン関数と結合積分の注意深い評価が必要だからです。マクスウェルの方程式を積分方程式に変換し、離散化によって構造の結合行列方程式が得られます。

アプリケーション・ノート 2013-12-09

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