• Channel Modeling Concepts
• Improve Design Confidence
• Analysis – Jitter Math
|• Simulation to Measurement
• EDA Jitter Analysis
• Material Identification
Develop your skills with Vector Network Analyzer measurement.
This is an introductory through advanced course that will focus on a practical application of VNA calibration techniques for on-board and coaxial line measurement of S-parameters. The training course consists of 2 full days including theoretical and hands-on parts. The challenges of the proper comparison between the simulation and measurement results will be discussed in the end. The VNA has as its basic function the measurement of S-parameters. It can make a number of other related measurements as well. In this course we review the concept of S-parameters, talk about the basics of the use and calibration of the VNA, and some of its applications.
- Fourier analysis and the essential equivalence of the time and frequency domains
- Understand the concept of reference plane versus S-parameter measurement
- Adapters for measurement – cleaning, operation
- Set up calibration based on DUT characteristics – insert-ability, reciprocity, DUT characteristics, etc.
- Examine and review Touchstone format of S-parameter files
- Operation of VNA – averaging, smoothing, sample points, group delay
- VNA set up for 3D EM analysis
- Calibrate VNA for 1, 2 and 4 ports with both Electronic calibration, and manual SOLT kit
- Validate 1, 2, and 4 port calibrations
- Resolve sticky calibration issues… what do I do when I cannot adequately calibrate?
- Create 2 and 4 port S-parameters (Smn, and mixed-mode such as SDD21), interpreting mixed-mode
- Understand key error sources in VNA, and relate them to DUT characteristics
- Make multi-port S-parameters for crosstalk analysis
- Correspond S-parameter measurement to TDR, or time domain methods. Note: This is optional based on customer having Transform Option in VNA, or PLTS, optionally customer can use Matlab RF Toolbox.
- S-parameter work flow for passivity/causality and determine root causes of problems
- Time domain simulation of S-parameters considerations, distortion and tilt in time domain along with getting good D.C. point
- Resampling, Broadband Spice and Rational Compact Modeling of S-parameters
Hands-on lab training can be provided in your lab or our facilities in Portland, OR. Syllabus and training materials will be provided.
Cancellations must be made in writing or via your Wild River Technology account. Cancellation of an accepted registration may be made up to seven days before the training without fee. Delegates who request a cancellation after seven days before the training and delegates who do not attend, are responsible for the full attendance fee.