レーダ/防衛関連

レーダー戦争や電子戦争の脅威に対する防衛手段の構築は、難易度と要求度の高い課題となっています。 ワイドバンド・レーダの実装から監視、および空き帯域の有効活用まで、これらのアプリケーションに対する要件の厳しさは、日々高まりつつあります。 テクトロニクスのコンテンツ/ツールは、優れた専門知識と革新的なソリューションにより、そうした問題の解決に取り組むお客様を支援します。 従来は可視化できなかった信号の側面がどのように観測され、出力信号や環境要件が優れた忠実度で再現されるのか、さらにその結果、システムの機能を強化する方法に関する洞察が得られ、設計サイクルの短縮や信頼性に優れた設計が可能になるのか、お客様ご自身の目でお確かめください。

 

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Title
AN Using an AWG For Threat Generation

AN Using an AWG For Threat Generation

Noise Figure: Overview of Noise Measurement MethodsMeasuring the noise contributions of circuit elements, in the form of noise factor or noise figure is an important tasks for RF and microwave engineers. This paper, along with its associated appendices presents an overview of noise measurement methods, with detailed emphasis on the Y-factor method and its associated measurement uncertainties.
Tektronix and X-COM Systems Platform Provide Unique Capabilities for RF Signal Capture and Analysis

The Tektronix RSA5000B and RSA6000B real-time spectrum analyzers and X-COM’s IQC5000A RF capture recorded playback system provide an excellent solution for challenging defense applications.

Creating Signals That Look Real to Radar

What's the best solution to help you create complex radar test signals at the highest frequencies? Our new application note, “Radar Signal Generation with a High-Performance AWG,” answers that question and explains much more.

SignalVu-PC Demonstration Guide (with Stored Signals) – Bringing the Benefits of Wideband Vector Signal Analysis to your PC

Understand the benefits of SignalVu-PC Offline Vector Signal Analysis Software when using stored files from supported Tektronix Real-Time Signal Analyzers or Oscilloscopes.

レーダ解析入門

Moder最新のレーダ設計では、測定が非常に難しい複雑なパルスを使用しています。測定範囲、分解能、耐干渉性の改善には、広帯域特性を持った位相変調パルス、周波数チャープ・パルスや非常にパルス幅の狭いナロー・パルスを必要とします。

リアルタイム・スペクトラム・アナライザを使用したレーダ・パルス測定リアルタイム・スペクトラム・アナライザを使用したレーダ・パルス測定アプリケーション・ノート
スペクトラム・アプローチによるジッタ解析Rj/Dj分離機能を持ったリアルタイム・ジッタ解析ツールによるシステムのビット・エラー・レートの予測
任意波形ジェネレータを使用した無線信号の生成In this primer we look at the technology propelling the digital wireless revolution, some common AWG wireless test applications and important considerations for getting the best performance possible from the arbitrary waveform generator.
Improving IED Countermeasure Technology - Using RF Capture and Playback Systems

By combining the Tektronix spectrum analyzer and X-COM Systems long duration RF signal storage system, a unique tool results for the recording, analyzing, and creating of new waveforms and complex RF environments to help tackle IED countermeasure technologies.

For 70 years Tektronix has served our military and government partners with an…

1:42

Tackle today's high-speed serial signals and tomorrow's too with the scalable…

2:04

Eric Yang, Product Marketing Manager at Tektronix, demonstrates how to quickly…

3:34

Sync up multiple AWG4000 units to extend the scale of your test system in a few…

2:44

Take a look at how the AWG4000 Artbitrary Waveform Generator generates different…

4:23

The NEW AWG4000 3-in-1 Waveform Generator incorporates the functions of an AFG,…

1:06

RSA5100B has the widest Real Time Bandwidth available today. The RSA provides…

2:05

Justin Panzer provides an overview of the key applications that were demonstrated…

2:38

The MDO’s wide band architecture for RF signal monitoring can augment or replace…

5:08
Title
Conquering Radar Signal Generation

Let us help you decode radar signal generation with our informative webinar.

Conquering Wideband Radar

Are you trying to build high fidelity wideband signal environments? Are you struggling to pick up on notoriously difficult to detect wideband signals? This webinar will focus on the challenges related to the adoption of wideband radar and techniques to master them. This hour long webinar features Tektronix expert Bill Byrom, who will share his insights on the key factor to consider when simulating and analyzing wideband signals.

Making Modern Radar Measurements the Easy Way

At one time, radar measurements could be performed using an oscilloscope for time domain, and a spectrum analyzer for frequency domain parameters. As radars became more and more complex, the measurements also became more complex. To perform today's measurements the easy way, test instrumentation needs to include automatic measurement techniques that are focused on today's radars.

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