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On Demand Webinars from Tektronix



Webinar Topic Abstract Register
GENERATING RADAR / EW SIGNALS
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Generating RADAR / Electronic Warfare Signals

Speaker:
Robin Jackman, EMEA RF Business Development Manager


The evolution of RADAR / EW technology resulted in the application of wide band signaling in many main stream RADAR applications. From a research & design perspective simulating these types of signals is big challenge, how can we exercise our design if we can’t generate the correct type signals ?

In this webinar we will discuss why RADAR signals are particularly difficult to create and explore the compromises in signal generator technology that affect wide band performance.

In addition we will talk to the performance criteria for test instrumentation that will allow you to capture, analyze, and playback wide band emissions.

This webinar will be of interest for people who are working in the fields of RADAR / Electronic Warfare, Automotive and Spectrum Monitoring who are looking at signals with > 1 GHz of bandwidth.

PRACTICAL EMI TROUBLESHOOTING
EMI
This webinar conveys practical EMI theory that will help you to approach your EMI testing more successfully. Find out about the latest test methods for EMI diagnostics, including how breakthrough technology like the Mixed Domain Oscilloscope has fundamentally changed the way engineers are testing for EMI.

During the webinar Robin Jackman will discuss the following topics:

  • Practical advice for setting up low cost EMI/EMC pre-compliance test
  • Tips for debugging EMI issues
  • When to use a scope
  • When to use a spectrum analyzer
  • When to use a network analyzer
  • Understanding what makes a mixed-domain oscilloscope perfect for EMI diagnostics.
We'll conclude the webinar with a live Q&A, your opportunity to pose questions directly to our team of experts.

ADVANCES IN QUANTUM COMPUTING AND SIGNAL SOURCES
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Challenges Facing Quantum Computing and Signal Sources

Speaker:
Dr Klaus Engenhardt, Chief Technology Officer, Tektronix EMEA

There is a huge rush to explore quantum phenomena and develop technologies based on quantum physics. These technologies range from quantum computing to new communications schemes and have the potential to revolutionize the world.

In developing these technologies there are common challenges facing researchers who are using signal sources to stimulate, measure and get feedback from their quantum experiments.

About the Webinar

During the webinar Dr Klaus Engenhardt will present a high level view of the mechanisms of how quantum experiments are triggered, discuss new signal source technologies that have recently been employed, and the challenges that come with scaling, signal conditioning and synchronization needed to make a quantum technologies a reality.

TIPS & TECHNIQUES TO SIMPLIFY MOSFET/MOSCAP DEVICE CHARACTERIZATION & ANALYSIS
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Today's semiconductor devices typically require an array of both current-voltage (I-V) and capacitance-voltage (C-V) tests to perform full parametric characterization of the device.

Though it's very common to perform these I-V and C-V tests on the same device, the two test types require different test equipment and cabling, presenting a difficult and time-consuming process that typically requires re-cabling the entire system.

This webinar presents a new technique that makes characterization and parameter extraction easier and quicker. We'll discuss parameter extraction and which tests will give you the most information about your device.

CHALLENGES IN TESTING MIPI D-PHY TRANSCEIVERS IN AUTOMOTIVE APPLICATIONS
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While several physical layer implementations exist in the MIPI alliance, the most popular is the D-PHY specification for its balance between power consumption, speed and adoption in the market place.

The D-PHY standard incorporates a unique combination of a low-power, single-ended bus structure, interleaved with a high-speed differential mode for fast data transfer.

From a test point-of-view this creates challenges in terms of signal access and probing, the characterisation of signals transitioning from one mode to another, as well as the traditional signal integrity measurements involved in fast serial buses.

Join us on this live webinar where we will discuss:

  • Challenges surrounding the implementation and testing of D-PHY buses
  • Understanding test requirements for both the transmitter and receiver
  • Tektronix solutions that address the challenges around testing MIPI D-PHY interfaces

CONSEILS ET TECHNIQUES POUR SIMPLIFIER LA CARACTÉRISATION DES CIRCUITS MOSFET/MOSCAP FR Flag.PNG
Materials_Science

Actuellement, la caractérisation complète des circuits semiconducteurs consiste généralement à effectuer un ensemble de tests de courant-tension (I-V) et capacité-tension (C-V). Bien qu’il soit très courant d’effectuer ces tests I-V et C-V sur le même circuit, les deux types de test requièrent des équipements de test et des câblages différents. Le processus est donc long et compliqué puisqu’il faut généralement refaire le câblage complet du système.

Ce webinaire présente une nouvelle technique qui facilite la caractérisation et l’extraction des paramètres tout en les rendant plus rapides. Nous aborderons l’extraction de paramètres ainsi que les tests qui vous fourniront un maximum d’informations sur votre circuit.

TIPP UND METHODEN ZUR VEREINFACHUNG DER CHARAKTERISIERUNG VON MOSFET-UND MOSCAP-BAUTEILEN 
Materials_Science

Bei modernen Halbleiterbauelementen wird eine Vielzahl von Strom-Spannung-Prüfungen (I-V) und Kapazität-Spannung-Prüfungen (C-V) benötigt, um eine umfassende parametrische Charakterisierung des Bauelements durchführen zu können.

Obwohl diese I-V- und C-V- Prüfungen sehr häufig am selben Bauelemente durchgeführt werden, erfordern diese beiden Prüfungen unterschiedliche Prüf- und Messgeräte und Verkabelungen. Die in der Regel notwendige Verkabelung des gesamten Systems erschwert den Prüfablauf und ist zeitraubend.

In diesem Webinar wird eine neue Methode vorgestellt, die die Charakterisierung und die Ermittlung von Parametern erleichtert und beschleunigt. Wir zeigen Ihnen, wie Sie die Parameter ermitteln, sowie, mit welchen Prüfungen Sie die meisten Informationen über das betreffende Bauelement erhalten.

REAL TIME RF RECORDING & ANALYSIS
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Our wireless enabled world presents the most complex electromagnetic experiment. Terrestrial network operators, spectrum managers and satellite broadcasters all face the same problem, how do we characterize such a dynamic subject?

Directly recording the RF spectrum provides the most detailed and accurate information, but recording RF signals has been expensive, complex and time consuming to produce meaningful information.

Join us on this live webinar to learn more about how the powerful yet surprisingly simple suite of tools from Tektronix addresses these problems.

FUNDAMENTALS OF JITTER
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During this live webinar we will explore in depth the tool set used to break jitter down into its fundamental building blocks in order to gain a better understanding of the root causes and impact on the BER performance of a design.

Join us on this live webinar to learn how to make accurate jitter measurements first time, every time.

HIGH SPEED SERIAL DATA PROBING
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Knowing how a probe works and impacts your signal is critical to understanding the results on a scope. Nowhere is this truer than in high-bandwidth, multi-gigabit, transceiver applications.

Join us on this live webinar where we focus on probe designs and considerations around high speed serial data applications.

Learn the importance of which probe type to use and when.

GRUNDLAGEN VON JITTER 
Jitter

Sie erhalten detaillierte Erklärungen der Werkzeuge für das Aufgliedern von Jitter in seine grundlegenden Bestandteile und erlangen so ein tieferes Verständnis der Ursachen und Auswirkungen auf das BER-Verhalten eines Designs.

Erfahren Sie, wie Sie akkurate Jitter-Messungen direkt beim ersten Mal vornehmen. Jederzeit.

SERIELLE HOCHGESCHWINDIGKEITSDATEN - MESSUNG MIT TASTKOPF 
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Im Laufe diese Webinars lernen die Teilnehmer die grundlegende Arbeitsweise eines Tastkopfes für Oszilloskope und den „Tastkopflast“-Effekt kennen. Anschließend werden im Webinar bestimmte Tastkopfdesigns und Aspekte vorgestellt, die Anwendungen für serielle Hochgeschwindigkeitsdaten betreffen. Darüber hinaus erhalten die Teilnehmer Informationen darüber, welcher Tastkopftyp in welcher Situation zu verwenden ist.

FOUNDATIONS OF RADAR
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This webinar will focus on the challenges related to the adoption of wideband radar and techniques to master them.

Learn how to identify performance criteria for test instrumentation that allows you to create high fidelity simulation environments and how to capture and analyze difficult to detect wideband signals.

INTERFERENCE IN WIRELESS NETWORKS
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Hunting down sources of interference can be extremely challenging but with the right tools and techniques you can make your interference hunting efforts more successful.

Join us on this live webinar to understand how to characterise and ultimately locate sources of interference