This manual is a reference document for the Anritsu ShockLine VNA user interface (UI) menus and dialog boxes. This chapter describes the document conventions used in this manual and lists related ShockLine VNA documentation. P/N: 10410-00337
This guide provides important notices, warranty, safety, and regulatory compliance information. Be sure to read these important notices before operating the equipment. P/N: 10100-00067
ShockLine VNAs supports remote operations commanded via the TCP/IP or VXI-11 protocols. This manual provides operation and programming information for this activity. P/N: 10410-00746
Operation manual for the MS46121B and MS46121A vector network analyzer. P/N: 10410-00344
This guide provides a return loss performance verification test procedures for Anritsu model MS46121A/B
ShockLine 1-port USB VNA. Blank performance verification test records are provided at the end of this
document. Make copies of the blank test records and use them to record measured values.
The One-port ShockLine VNA Declaration of Conformity is a special document issued by Anritsu to state that the product meets all of the applicable legislation and European directives. P/N: 10101-00035
The MS46121A is part of the ShockLine™ family of Vector Network Analyzers from Anritsu. It is available in two frequency ranges of 40 MHz to 4 GHz and 150 kHz to 6 GHz, and is capable of 1-port s-parameter and band pass time domain (distance to fault) measurements standard.
The MS46121A series is controlled through USB from an external PC. The MS46121A runs the same software as the rest of the ShockLine family, providing a powerful graphical user interface for testing of passive devices. Up to 16 MS46121A VNAs can be controlled from one computer, making it ideal for testing multiple 1-port devices in parallel for improved test productivity and throughput.
This document provides detailed specifications for the MS46121A series Vector Network Analyzers (VNAs) and related options.
Higher data rates require accurate measurements to provide the confidence needed to achieve the desired performance. Measurement tools must help shorten design times and ensure stable signal integrity in mass production. VNAs play a key role in helping both the RF and signal integrity engineers meet the performance challenges of increasing data rates. This paper provides a review of signal integrity-based VNA measurements for digital engineers and correlated VNA measurements to key signal integrity parameters for RF engineers. For those needing to increase their current measurement performance, Anritsu offers a wide range of test equipment that is designed to meet both your budget and performance needs for either R&D or manufacturing.