(Jan 24) Detect and Troubleshoot Interference in Modern RF/MW Communication Systems
Detect and Troubleshoot Interference in Modern RF/MW Communication Systems (Jan 24)Original air date: 01/24/2018
Rolland ZhangGlobal Product ManagerKeysight Technologies
Communication systems are moving to higher frequencies like LTE, 5G, microwave link, Ka band satellite, and narrow RADAR pulse for automotive RADAR. Congested radio resources contribute many interference issues in network deployment. During this one hour webcast, we will examine various types of interference, mitigation plans and new technologies that can help troubleshoot interference issues in the field.
(Jan 31) RF Basics Part 1: Signal Analysis
RF Basics Part 1: Signal Analysis (Jan 31)Original air date: 01/31/2018
Xiao-Wei ZhangSenior Product ManagerCommunication Solution Group, Keysight Technologies, Inc.
The signal analyzer is a fundamental tool for those working on RF. To get the most from your signal analyzer, it is important to understand the most common spectrum measurements, key signal analysis parameters and specifications—and why they matter. During this one hour webcast, we will also discuss swept-tuned and FFT receiver techniques, along with optimization of spectral search techniques, including RBW, VBW and dynamic range criteria, for the most accurate measurements. We will then dive into real life examples of measurement challenges associated with the RF signal chain.
(Feb 7) Device and Material Characterization from DC to Millimeter-wave and THz
Device and Material Characterization from DC to Millimeter-wave and THz (Feb 7)Original air date: 2/7/2018
Michael BallouSenior Applications Engineer/SpecialistKeysight Technologies
From stealth materials to dielectric substrates, microwave food products to biofuels, accurate characterization of their electromagnetic properties from DC to THz frequencies provide engineers with critical information needed for material and circuit design, modeling, new material research, health and safety, manufacturing, quality control, and more. Many measurement methods exist, but which to choose is often a mystery. This webcast provides an overview of measurement methods, with strengths, limitations and applications of each.
(Mar 8) 5 Tips to Minimize Your Pass/Fail Errors
5 Tips to Minimize Your Pass/Fail Errors (Mar 8)Original air date: 3/8/2018
Bob SternPrincipal Metrologist, EmeritusKeysight Technologies
What do you do with the result after you take a measurement? Often, people compare the result to a specification and make a “Pass” or “Fail” decision to ship or reject the item under test. They don’t teach you in school how accuracy affects the risk of incorrect Pass/Fail decisions. We will.
All measurements have errors. These errors can result in incorrectly passing or failing products during testing, such as when performing design verification before transitioning to production, or in final production test. If you are responsible for test system accuracy then you should plan to attend. Many engineers learn about how much, if any, to guard band test results from senior colleagues via a “tribal knowledge” path. It turns out, there are international standards and statistical techniques that you can apply to reduce measurement decision errors and improve yields. This Webcast will demonstrate techniques to reduce the incidence of false accepts and rejects in your work.
(May 9) Modern Network Analyzer Calibration Techniques
Modern Network Analyzer Calibration Techniques (May 9)Original air date: 05/09/2018
Rusty MyersSenior Metrology EngineerKeysight Technologies
The quality and accuracy of vector network analyzer measurements are directly related to the calibration method used. During this one hour webcast, we will analyze the various calibration methods and share expert tips to help you select the appropriate calibration method based on the type of measurement and overall measurement needs.
Mastering Noise Figure Measurements
Mastering Noise Figure Measurements (On Demand)Original air date: 12/14/2017
Nizar MessaoudiRF and Microwave EngineerKeysight Technologies
With the move to millimeter wave in 5G and Satellite communications, transceiver designers are faced with increasing challenges to differentiate their products. Characterizing the noise contributed by RF and microwave amplifiers and frequency converters is essential for optimizing overall system performance. Noise figure, the accepted figure-of-merit, is typically measured using the widely-understood Y-factor or hot/cold method. However, when using a vector network analyzer, the less-familiar cold-source method lends itself to advanced error-correction techniques that enable exceptional measurement accuracy. This webcast will provide an overview of both techniques and contrast their strengths and accuracy limitations.
Increase RF and Microwave Test Efficiency and Throughput
Increase RF and Microwave Test Efficiency and Throughput (On Demand)Original air date: 10/11/2017
Sau-Peng Tang RF & Microwave Brand ManagerKeysight Technologies, Inc.
Do you need to improve the test efficiency and throughput of your RF and Microwave designs? This webcast will demonstrate how to select and configure your system with the optimal microwave test accessories to help you increase output, build a fast and accurate design validation test, improve noise figure measurements, and accelerate overall throughput resulting in a lower cost of test.
Microwave Device Characterization Using the Latest Vector Network Analyzers
Microwave Device Characterization Using the Latest Vector Network Analyzers (On Demand)Original air date: 10/5/2017
Rosana CheruvelilNetwork Analyzer Brand SpecialistKeysight Technologies, Inc.
During this one hour webcast, we will discuss basic linear network analyzer measurements including insertion loss, return loss, gain compression and deviation from linear phase. We will then focus on additional advanced VNA capabilities including spectrum analysis and noise figure analysis.
Millimeter-wave Component Characterization
Millimeter-wave Component Characterization (On Demand)Original air date: 9/7/2017
Suren SinghIndustry Applications SpecialistKeysight Technologies
Why this webcast is important:
With the increased demand for the transfer of large volume of data at high speeds, there is an increasing need to utilize the millimeter wave frequency band . This places an increased demand on designers and manufacturers in the industry to fully characterize and test both active and passive components at the millimeter wave frequencies. This webcast will focus on how a Vector Network Analyzer can be utilized to address the need for millimeter wave component characterization for both passive and active devices.
Understanding RF and Microwave Analysis Basics
Understanding RF and Microwave Analysis Basics (On Demand)Original air date: 9/13/2017
Kimberly Cassacia Product Line Brand Manager Keysight Technologies, Inc.
With increasingly complex design and measurement challenges and rapidly changing technology, engineers must have a strong foundation in basic measurement and simulation techniques in RF analysis. This session will discuss key fundamentals needed to optimize the analysis of RF signals. Different types of basic measurements and the use of a spectrum analyzer and signal generator will be covered.
Understanding Phase Noise and Why it Matters
Understanding Phase Noise and Why it Matters (On Demand)Original air date: 7/12/2017
Riadh SaidPlatform Planning Engineer, High Frequency Measurements Center of ExcellenceKeysight Technologies
Why this webcast is important:
Engineers developing cutting edge radar and communications systems know that phase noise is a characteristic that can limit system performance. In radar systems, phase noise degrades the ability to process Doppler information. In digitally modulated communication systems, phase noise degrades error vector magnitude.
This webcast explains fundamental phase noise characteristics and tradeoffs including cost, switching speed and optimization of wide vs. narrow offsets in order to optimize performance. It also discusses related signal generation techniques such as frequency references, frequency converters, and frequency synthesis and their respective roles in transmitter and receiver test.
Who should attend:
Engineers developing RADAR, EW, Satellite, or digitally modulated communication system receivers and transmitters.
Verifying RF Short Range Communication in IoT
Verifying RF Short Range Communication in IoT (On Demand)Original air date: 6/27/2017
Jake Daly SA Product Brand Specialist Keysight Technologies, Inc.
IoT involves wireless networks that must accurately and instantaneously communicate to each other and to the cloud. Verifying the signal robustness of these radio links is key in ensuring a design’s integrity. This webcast will cover measurement and test methods of short-range communications including Bluetooth, Zigbee, Z-wave, and Sub-GHz. RF test solutions that meet a variety of application needs ranging from automotive, home automation to healthcare will be demonstrated.
EMI Interference Analysis and Troubleshooting
EMI Interference Analysis and Troubleshooting (On Demand)Original air date: 6/14/2017
Chris Harrell Application Engineer Keysight Technologies, Inc.
Signal analyzers are used to characterize RF signals, including EMI interference analysis and diagnostics. A full EMI compliance test can be expensive and time-consuming. So why not use the spectrum analyzer on your bench to evaluate the EMI risk of your product, before going to the test house? This webcast will cover EMI basics, EMI interference, and EMI characterization and test using the Keysight X-series signal analyzers.
Wireless LAN Evolution
Wireless LAN Evolution (On Demand)Original air date: 5/9/2017
Kimberly Cassacia Product Line Brand Manager Keysight Technologies, Inc.
With the demand for new usage models and more applications, dense Wi-Fi deployments and more outdoor and public access, extensive effort and work are in progress in IEEE on emerging standards, from 802.11ac to 802.11ax or from 802.11ad to 802.11ay. This webcast will discuss the evolution of WLAN technologies along with solutions addressing associated test challenges such as high order modulation, OFDMA and MIMO.
Who should attend:
Wireless system, subsystem and component design and test engineers and engineering managers interested in learning techniques for keeping up with latest standards pushing the limits of device bandwidth, adjacent channel and spurious performance, and complexity.
5G Beams and Dreams: From FD-MIMO to Massive MIMO
5G Beams and Dreams: From FD-MIMO to Massive MIMO (On Demand)Original air date: 4/27/2017
Will SitchMIMO Program Director and Worldwide Business Development ManagerKeysight Technologies
What is the webcast about:
Join Keysight’s webcast to get a feel for the pulse of the 5G MIMO marketplace and learn solutions for difficult MIMO questions. What is the difference between beamsteering and beamforming? What is Full Dimension MIMO, and how is it different from regular MIMO? Will Massive MIMO be needed at millimeter-wave frequencies? Will 5G MIMO mean I need a new phone? How will MIMO improve quality of service for end-users?
Who should attend:
Advanced development researchers, design engineers, validation engineers, test engineers, architects, project managers, program managers, application managers, and application engineers.
RF Fundamentals Part 4: RF and Microwave Power Measurements
RF Fundamentals Part 4: RF and Microwave Power Measurements (On Demand)Original air date: 4/18/2017
Eric Breakenridge Aerospace/Defense/Government Solutions Manager Keysight Technologies, Inc.
Power measurements are fundamental to RF & microwave industries, but is the standalone power meter still relevant among the plethora of advanced instruments available today? During this one hour webcast, we will discuss standalone power measurement instruments, how they work, why they are important and where they fit within the RF test bench. We will describe the technologies and topologies applied to power measurements and explore how best to take advantage of the capabilities offered. Factors effecting accuracy and traceability will be presented along with detailed application examples.
Testing Microwave Backhaul Radio Systems
Testing Microwave Backhaul Radio Systems (On Demand)Original air date: 3/29/2017
Rolland Zhang Senior Product ManagerKeysight Technologies, Inc.
Microwave radio provides the quickest and the most cost effective way to backhaul broadband radio access. In order to keep the microwave radio running at its peak performance, it is crucial to install its network elements properly, test each of them to make sure they meet design specifications before turning on the system; and site radio elements need to be tested during operation to assure network service quality.
NB-IoT: A Cellular Technology Connecting the Internet of Things
NB-IoT: A Cellular Technology Connecting the Internet of Things (On Demand)Original air date: 3/22/2017
Manuel Blanco Solutions Planning Engineer Keysight Technologies, Inc.
While the LPWA( Low Power Wide Area) market has existed for some time, current implementations are fragmented and soft-standardized, leading to weaknesses in security and reliability, and very high operational costs due to incompatibility with existing infrastructure.
Narrowband-IoT (NB-IoT) is a new cellular Radio Access Technology defined by the 3GPP aimed to address this market and overcome these challenges, presented as an upgrade path to existing cellular networks. How does NB-IoT work and what are the test challenges?
This webcast will help engineers have insight into the motivational reasons, industry drivers and technical fundamentals of NB-IoT.
Millimeter-wave Challenges (On Demand)Original air date: 2/23/2017
Pete CainMillimeter-wave Solution Planner Keysight Technologies
While the frequency of “mmWave” systems can vary from 10-100 GHz, there are aspects of system design and the impact of hardware limitations that are common. A combination of high frequency and wide bandwidth require close attention to broadband noise, phase noise, linearity, frequency response and power dissipation. The use of directional antennas introduces another dimension to the problem of maintaining an effective link, since beam steering is required. This webcast discusses these issues and some solutions using a number of examples from 802.11ad and OFDM signals
RF Fundamentals Part 3 - Signal Generation, Modulation and Vector Signal Analysis
RF Fundamentals Part 3 - Signal Generation, Modulation and Vector Signal Analysis (On Demand)Original air date: 1/18/2017
Kimberly Cassacia Product Line Brand ManagerKeysight Technologies
In Part 3 of RF Fundamentals, we will focus on the challenges related to the need to generate and demodulate analog and digitally modulated signals in the RF signal chain. We’ll review CW signal generation and characteristics, including phase-noise and signal synthesis using VCOs and phase-locked-loops. You will learn about analog and digital modulation generation and measurement techniques.
IoT: LoRa® Technology Introduction and Solution Testing
IoT: LoRa® Technology Introduction and Solution Testing (On Demand)Original air date: 1/27/2017
Vivek MohanDirector of Marketing for Wireless Connectivity ProductsSemtech
Ian ReadingIndustry Segment PlannerKeysight Technologies, Inc.
Kevin Ashton coined the phrase “The Internet of Things” in 1999 when discussing applications for RFID tags. From the simple tracking and counting of RFID objects, the Internet of Things has taken off with Machine-to-Machine (M2M), Big Data and Machine Learning, enabling applications such as the smart building, smart grid and intelligent transport systems. LoRaWAN™ is a Low Power Wide Area Network (LPWAN) specification intended for wireless battery operated Things in regional, national or global networks. LoRaWAN targets key IoT requirements such as secure bi-directional communication, mobility and localization. LoRa is well accepted for its long range, excellent sensitivity, battery life, and low cost. In this webcast, we invite Semtech, the key chipset supplier and driver of LoRaWAN, to introduce their understanding of this market. Keysight, as a leading Test & Measurement company will introduce LoRa Transmitter, Receiver and power consumption test methods.
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