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Materials and Devices Measurement Insights

 See more at HOTSPOTS Homepage

Materials and Devices Measurement Insights - Agenda
Register - At the bottom of the page
Welcome & Overview – Keysight
Challenges & Solutions for Material Science/Engineering Testing Application
Networking and Refreshment Break
Advanced Testing Solutions for Impedance Measurements
Lunch Break
Devices & Material Characterization from DC to mm-wave & THz
Hands-on and Demonstrations                                   

Papers & Abstracts

Welcome and Opening: Keysight in Test & Measurement

Understanding the properties of materials (both natural and man-made) is important for a variety of reasons. Materials such as metallic materials, semiconductors, organic materials (such as polymers) and compound semiconductors have provided profound benefits over the last century. New and emerging materials such as oxide semiconductors, carbon nano tubes (CNT) and graphene promise to provide new benefits over the coming century. Keysight Technologies continues to develop and introduce test and measurement equipment to cope up with the evolving demands of researchers. This paper gives an overview of the most emerging technologies and what Keysight can offer to solve the most daunting measurement challenges.

Challenges and Solutions for Material Science/Engineering Testing Application

Material science testing is a challenging task due to the fact that every material is unique in in terms of its electrical, optical and structural properties. It is these unique material properties that allow devices and components such as solar cells, sensors, logic devices, memories, interconnect, displays, emitters, packaging materials to perform their specified tasks. In this presentation we will discuss typical electrical measurement methods for a variety of materials and present the test instruments and solutions that Keysight can provide for defining and assembling material testing solutions

Advanced Testing Solutions for Impedance Measurements

This presentation is aimed to focus on basics impedance measurement and its applications. Also, the correct techniques for making accurate impedance measurements on components such as capacitors, inductors and transformers will be discussed. You will gain an understanding on the reasons for measurement discrepancies, the sources of measurement error and how to compensate for these errors. A discussion on the advantages and disadvantages of the different measurement techniques employed will assist you in selecting the right instrument for your measurement need.

Devices & Material Characterization from DC to mm-wave & THz

From stealth materials to dielectric substrates, microwave food products to biofuels, accurate characterization of their electromagnetic properties at microwave and mm-wave frequencies provide engineers with critical information needed for material and circuit design, modelling, research, manufacturing and quality control. In this paper we will overview the classes of methods employed to measure the dielectric properties of solids and liquids and will discuss the criteria one should consider when selecting a measurement technique. The focus will be on those techniques useful for measuring the relative permittivity and loss tangent of dielectric materials, both liquid and solid, over a frequency range that covers 100 MHz to 1.1 THz.

Register for one of the events by clicking on the appropriate link in the table below.

Alternatively, receive notifications of future Materials & Devices Measurement Insights HOTSPOTS Seminars as they become available by clicking ‘Notify me’.


Where & When

Date(s) Location Seminar's Language For more information
2019-11-26  Zaragoza, Spain Spanish Register here
2019-11-28 Granada, Spain Spanish Register here