MORGAN HILL, CA -- Anritsu Company continues to address the test needs of signal integrity (SI) engineers with the introduction of options for its VectorStar® and ShockLine™ vector network analyzers (VNAs). The VectorStar Eye Diagram and ShockLine Advanced Time Domain (ATD) options are part of the expanding SI capabilities offered by Anritsu and provide SI engineers with improved tools to conduct channel diagnostics and model validation of high-speed digital circuit designs.
"As data rates continue to increase, signal channel characterization becomes increasingly challenging. The result is that VNAs are becoming more of a staple in signal integrity measurements, however, additional capabilities in processing and visualizing data are beneficial. For these reasons, more tools have been added to the VectorStar and Shockline VNA families that can help signal integrity engineers be more efficient in analyzing their designs," said Dr. Jon Martens – Fellow at Anritsu.
The VectorStar and ShockLine VNA families provide complementary capabilities that enable SI engineers to meet their measurement needs. VectorStar is Anritsu's highest performance VNA and is often used by SI engineers with the most challenging design requirements. For example, some designers want their test systems to be able to include up to the 5th harmonic of their system clock. VectorStar offers 2- and 4-port broadband configurations from 70 kHz to 70 GHz, 110 GHz and 145 GHz with a single coaxial connection, supporting the latest digital data rates, including 25/28 Gbps and 43 Gbps. Anritsu's ShockLine VNA family also has excellent performance, but less capability at a lower price for less demanding SI applications. This makes ShockLine VNAs well suited for lower data rate systems or manufacturing applications.
VectorStar Eye Diagram
VectorStar is well suited for SI engineers responsible for the design of high-speed data transmission requirements critically needed to support emerging network systems, such as 5G and IoT. The new Eye Diagram option updates the VectorStar display via a trace-based process rather than a conventional file-based method, eliminating the need to manually transfer .SnP files. Unlike other VNAs, there is no need to store the S-parameter performance in a file and then recall the file to observe the eye diagram. It greatly improves measurement efficiency, analysis, and tuning of a data transmission signal path, allowing users to see the results of circuit changes in near real-time.
With this innovative approach, engineers can observe the likelihood of bit errors due to effects such as level compression, jitter, slew, and edge distortion while tuning for improved performance. This is particularly valuable in identifying data stream SI issues that may occur within a given transmission path and can help conduct accurate subsystem fault location analysis.
The new option, coupled with the industry leading performance of the VectorStar, provides SI engineers with the ability to monitor transmission quality of digitally modulated signals. VectorStar now provides the unique ability to display all key parameters, such as eye diagram, time domain/TDR, and S-parameters, on the same channel while continuously sweeping.
Advanced Time Domain for ShockLine VNAs
Designed for the MS46522B/MS46524B performance series VNAs, the ATD option provides tools for SI engineers building circuit models and conducting validation measurements on them, as well as troubleshooting SI issues. The ATD option includes a subset of popular SI capabilities, including the ability to plot eye diagrams, determine single-ended or differential near-end crosstalk (NEXT) and far-end crosstalk (FEXT), and apply various equalization techniques.
With the ATD option, engineers can select among several IEEE and OIF specifications and compare the power sum of coupled noises, insertion loss crosstalk ratio (ICR), insertion loss, insertion loss deviation (ILD), and integrated crosstalk noise (ICN). It also features a plot TDR, TDT and Skew utility that converts S-parameter data into an impedance profile, a time domain reflection (TDR) with an open end or a TDR/time domain transmission (TDT) with matched terminations.
For more info, go to http://www.anritsu.com/en-US