Discutez avec un expert

Technical Support

Electronic Measurement

Find by Product Model Number: Examples: 34401A, E4440A

1-25 of 296

Sort:
Discovering Genesys
A collection of Keysight EEsof EDA Genesys video demonstrations and tutorials

Demo 2015-08-27

How to Design DC-to-DC Converters
This video introduces basic DC-to-DC converter operation, explains why voltage spikes occur in these circuits, and shows the importance of modeling PC board layout effects. There is an example in which current visualization is used to see potential problem areas in the PC board. The layout is then modified to improve performance.

How-To Video 2015-08-24

Synthesis Made Easy With Keysight Genesys
Learn how to quickly design many different filters with various topologies in these short tutorial videos. The Genesys Synthesis building block contains the RF industry’s widest coverage of circuit and system synthesis capabilities for passive and active components. These step-by-step tutorials walk you through the steps to accelerate your routine design tasks from hours to minutes.

Demo 2015-08-20

Equalization Network Synthesis
Learn how to quickly design active and passive equalization networks to correct for group delay and phase distortions in your RF systems or circuits such as filters and amplifiers defined by measured S-parameters or equivalent circuits. Automatically calculate and optimize component values of analog equalization networks with equalization network synthesis.

Demo 2015-08-15

WhatIF Frequency Planning Synthesis
When selecting LO and IF frequencies in RF systems for receivers or transmitters, it is extremely tideous to identify all interfering frequency mixing spurious and intemod signals that result near the desired IF. Learn how to do frequency planning quickly and interactively compare high-side or low-side mixing to obtain a spurious-free frequency plan that requires minimal filtering. This video also shows how to perform multi-band down conversion frequency planning to a common IF for economical realization.

Demo 2015-08-15

Passive Filter Synthesis
Learn how to quickly design LPF, BPF, HPF and Bandstop filters from a complete selection of response shapes such as Chebyshev, Butterworth, Cauer, Bessel or user-defined G-value tables. Automatically calculate LC component values for single-ended or balanced differential topologies for fast realization with passive filter synthesis. Includes singly terminated topologies for diplexer and multiplexer designs.

Demo 2015-08-15

Splitter, Coupler, Balun and Attenuation Synthesis
Learn about RF/microwave signal control using splitters, combiners, couplers, baluns and attenuators. Then quickly design from 27 different popular topologies such as Wilkinson splitter, Lange Coupler and 90 degree branch line including generation of their distributed layouts on microstrips using signal control synthesis.

Demo 2015-08-15

Active Analog Filter Synthesis
Learn how to quickly design active analog filters with op-amps from a complete selection of response shapes such as Chebyshev, Butterworth, Bessel Cauer or user-defined G-value tables. Select from all popular topologies such as biquad, elliptic, single or multiple feedback for fast realization with active filter synthesis. Includes singly terminated topologies for diplexer and multiplexer designs.

Demo 2015-08-15

Phase Locked Loop PLL Synthesis
Designing phase locked loops (PLL) for frequency synthesizers or frequency/phase modulator/demodulator can be a daunting task because of the multiple interactions of the PLL components such as reference source, loop filter, phase-frequency-detector, divider and VCO. PLL synthesis interactively guides the designer in selecting the appropriate specs for these components in order to achieve the desired balance of loop stability, phase noise and lock time.

Demo 2015-08-15

Oscillator Synthesis
Learn the foundations of practical RF oscillation design in understanding the interaction of loop gain, zero phase crossing, phase slope and resonator characteristics on oscillator performance and transient startup. Then know how to select from 19 types of oscillator topologies and design them quickly with automatic calculation and optimization of component values through oscillator circuit synthesis.

Demo 2015-08-15

Transmission Line and Advanced Tline Synthesis
Transmission line synthesis provides 24 types of rectangular and circular transmission line structures for interactive electrical-to-physical or physical-to-electrical synthesis of transmission line parameters such as impedance, even-odd mode impedance, coupling, spacing and width. Learn how to automatically convert a distributed electrical schematic into transmission line structures with automatic insertion and absorption of discontinuities such as chamfered bends, Tee’s, steps and end effects with Advanced Tline synthesis.

Demo 2015-08-15

RF Mixer Synthesis
Learn about RF mixer characteristics and how to select from 11 different passive and active topologies including single ended, balanced, double-balanced and Gilbert Cell for achieving the required frequency translation conversion gain and LO-RF-IF isolation. Then design them quickly with automatic calculation of component values through mixer circuit synthesis.

Demo 2015-08-15

IMS 2015 Demos from Keysight EEsof EDA
YouTube video playlist containing International Microwave Symposium (IMS) 2015 demo videos from Keysight EEsof EDA MicroApps.

Demo 2015-06-19

How to Match RF Impedance Effectively By Optimally Selecting SMT Devices
This video demonstrates a very effective RF impedance matching methodology with SMT devices that helps RF engineers save time and cost. With this methodology, RF engineers can start to match the design with a list of good combinations of SMT devices which satisfies the target impedance and loss specifications instead of trying out unlimited possibilities at the workbench. This methodology should work very well with typical wireless or mobile product designs such as smart phones.

How-To Video 2015-06-11

How to Design for Power Integrity: Finding Power Delivery Noise Problems
This video provides an understanding of how the voltage regulator module (VRM) interacts with the printed circuit board planes and decoupling capacitors within a power distribution network (PDN). A well designed PDN provides optimum system performance while a poorly matched designed PDN can result in poor system performance. In the extreme case, rogue waves can occur within the PDN generating much higher voltage noise levels than expected, potentially interfering with system performance or resulting in permanent damage. Recommendations for keeping the impedance flat are also provided.

How-To Video 2015-06-05

Microwave Journal - Keysight 5G Design and Verification
Microwave Journal video: 5G Applications Development Engineer Greg Jue demonstrates one of Keysight's latest innovations.

Demo 2015-06-02

Microwave Journal - Keysight Interview with Todd Cutler
Microwave Journal Editor Pat Hindle interviews Todd Cutler, General Manager of Keysight EEsof EDA.

Demo 2015-05-31

Keysight Software | MATLAB Application Videos for Keysight Instruments
Watch these six brief videos and learn how to perform application-specific tasks with your Keysight instruments including: IQ data fast capture from signal analyzers, RADAR signal creation for signal generators, waveform pre-distortion and amplitude correction, custom oscilloscope signal decoding, waveform sequencing, instrument automation, and IQTools modular control. MATLAB is orderable from Keysight as your software environment for most Keysight instruments, and you receive access to the modifiable version of these application examples when you order MATLAB software together with your Keysight instrument.

How-To Video 2015-05-12

Signal impairments and playback: IQ modulation with MATLAB
Watch this video to learn how to generate signal impairments and play back waveforms for Keysight signal generators and analyzers using MATLAB software, orderable form Keysight as an N6171A option to an X-Series signal analyzer. Video hosted on MathWorks website (2:32)

Demo 2015-05-11

Keysight oscilloscopes: Using ScopeMath app
Watch this video to learn how to acquire, filter, and analyze live digital signals for Keysight Infiniium and InfiniiVision oscilloscopes using the MATLAB application ScopeMath. MATLAB software is avialable with the purchase of a new Infiniium or InfiniVision oscilloscope as the N8831A, Option 61, or Option 62

Demo 2015-05-11

Overview of Keysight signal generators,analyzers,modular hardware,and oscilloscopes used with MATLAB
This brief video provides an overview of Keysight instruments, including X-Series signal generators, X-Series analyzers, PXI and AXIe modular hardware, Infiniium and InfiniiVision scopes. Watch this video to learn how to use these instruments with MATLAB software (orderable from Keysight). Video hosted on MathWorks website. (3:24)

Demo 2015-05-11

M8190A: Using IQ Tools and MATLAB
Watch this video to learn how to generate wide-band waveforms and perform amplitude correction for a Keysight M8190A arbitrary waveform generator using MATLAB software. MATLAB is orderable from Keysight as N6171A option to an M8190A high performance arbitrary waveform generator. Video presented by Steve Cain, Keysight application engineer, and hosted on MathWorks website. (5:07)

Demo 2015-05-11

Keysight signal analyzers: Performing IQ data capture with MATLAB
Watch this video to learn how to acquire IQ data from Keysight X-Series signal analyzers using MATLAB software, orderable from Keysight as an N6171A option to an X-Series signal analyzer. Video hosted on MathWorks website. (2:51)

Demo 2015-05-11

User-defined functions for Keysight oscilloscopes
Watch this video to learn how to make user-defined custom measurements for Keysight Infiniium oscilloscopes using the N8806A user-defined function option, which includes MATLAB software. N8806A is orderable from Keysight with the purchase of an Infiniium oscilloscope. Video hosted on MathWorks website. (8:02)

Demo 2015-05-11

Keysight signal generators: Performing pulse generation with MATLAB
Watch this video to learn how to generate Radar pulse waveforms and linear FM chirp for Keysight X-Series signal generators using MATLAB software. MATLAB is orderable from Keysight as an N6171A option to an X-Series signal generator. Video hosted on MathWorks website. (12:07)

Demo 2015-05-11

1 2 3 4 5 6 7 8 9 10 ... Next