Many microwave test applications do not need the level of performance provided by an expensive, high-end VNA. This is particularly true in production, where testing is typically not as rigorous as in device characterization and cost-of-test is critical. VNAs integrated into manufacturing test systems where S-parameter measurements represent only a part of the test list, may also require only moderate performance. This application note will examine these requirements and how they factor in to deciding which VNA is appropriate for a production environment. PN: 11410-01158
Application Note
pdf 1.5 MB
Version: A
11/12/2019
The ShockLine family of vector network analyzers (VNAs) achieve a new level of capability, flexibility, and value
for RF and microwave network analysis applications. ShockLine VNAs deliver excellent performance for measurements from 50 kHz up to 43.5 GHz and banded E-band measurements from 55 GHz to 92 GHz. These instruments are ideal for testing passive and many active components with general purpose VNA requirements. P/N: 11410-01071
Brochure
pdf 2.4 MB
Version: J
3/12/2019
Overview of RF and Microwave instruments available to meet a variety of solutions. Featuring the frequency range, measurements, and other key features. P/N: 11410-00800
Brochure
pdf 18.2 MB
Version: M
27/08/2019
The MS46122B is part of the ShockLine family of Vector Network Analyzers. It is a very low-cost series of 1U high, 2-port Compact Vector Network Analyzers (VNAs). It is available in three frequency ranges. P/N: 11410-00995
Datasheet
pdf 2.9 MB
Version: L
31/07/2019
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
Programming Manual
pdf 17.7 MB
Version: T
31/07/2019
Operation manual for the MS46122A and MS46122B series vector network analyzers. P/N: 10410-00340
Operations Manual
pdf 7.8 MB
Version: M
31/07/2019
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
User Guide
pdf 32.1 MB
Version: AA
31/07/2019
The purpose of this Measurement Guide is to introduce the basic calibration and operation of the ShockLine MS46122A/B and MS46322A/B Series Vector Network Analyzer (VNA) and reduce the time required to become
proficient at performing basic measurements. P/N: 10410-00336
Measurement Guide
pdf 19.5 MB
Version: N
31/07/2019
This poster features sections on Circuits and Waves, S-Parameters, Reflection Coefficient, Phase and Group Delay, Non Linear Transmission Lines, VNA Architecture, Superposition/True Mode Stimulus, Time Domain, Pulse Measurements, and a Reflection Coefficient Table. P/N: 11410-00934
Brochure
pdf 13.4 MB
Version: C
23/07/2019
This manual provides service and maintenance information for the Anritsu ShockLine MS46122A and MS46122B Vector Network Analyzer. The information includes a product description, performance verification procedures, parts
removal and replacement procedures, and troubleshooting information. P/N: 10410-00341
Maintenance Manual
pdf 3.4 MB
Version: E
17/07/2019
Introduces Anritsu 5G solutions and products.
Anritsu will contribute to customer's 5G product development and future innovation of network.
Brochure
pdf 3.1 MB
17/07/2019
Anritsu is the leader of high frequency microwave connector technology and is driven by an ongoing commitment to exceed customer needs. Anritsu created and trademarked the K Connector with coverage to 40 GHz, along with a complete family of 40 GHz test equipment. It was an immediate success and today is used on many commercial components, test fixtures, and
defense systems. P/N: 11410-00235
Catalog
pdf 12.3 MB
Version: T
5/06/2019
The MS46122B is a Compact ShockLine USB Vector Network Analyzers, packaged in a compact 1U chassis and externally controlled via USB. P/N: 11410-01014
Brochure
pdf 619.9 KB
Version: C
4/06/2019
Anritsu's ShockLine Family of Vector
Network Analyzers are a series of five VNA
models (with 15 products to choose from) that provide a broad range of solutions to meet your unique performance, application, and budget needs. P/N: 11410-01039
Selection Guide
pdf 2.1 MB
Version: D
7/05/2019
In 1965, Anritsu filed the patent that defined the first modern Vector Network Analyzer (VNA).
We are proud to continue that tradition of innovation to the present day—with the world’s first portfolio of VNAs that bring Nonlinear Transmission Line (NLTL) technology to every measurement scenario from on-wafer device characterization to R&D testing to manufacturing and field operations. P/N: 11410-00905
Brochure
pdf 7.3 MB
Version: E
7/05/2019
The Compact 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: 10101-00042
Datasheet
pdf 97.6 KB
Version: B
10/04/2019
This quick start guide provides a brief overview of the installation and use of ShockLine Verification Kits and the 3-2300-610 Performance Verification Software (PVS) with ShockLine Series VNAs. P/N: 10410-00766
Quick Start Guide
pdf 2.8 MB
Version: B
9/04/2019
Although the TRL family of calibration algorithms have been around for over 40 years, there are still questions sometimes regarding differences between the family members. This is partially due to differences in various implementations over the years. The purpose of this document is to discuss some of the differences in the context of vector network analyzers (VNAs). P/N: 11410-01124
Application Note
pdf 271.3 KB
Version: A
26/03/2019
Vector network analyzers (VNAs) are used to measure the performance of a wide variety of passive and active RF and microwave devices. Passive devices can be less demanding to test than active devices, thus requiring less performance from the VNA. However, one interesting exception to this is the measurement of very low insertion loss passive components such as precision adapters or airlines. These types of devices can present a difficult challenge to characterize because of the desire for very low uncertainties on these small insertion losses. This application note talks about these challenges and provides a helpful technique. P/N: 11410-01090
Application Note
pdf 975.1 KB
Version: A
25/09/2018
The superposition technique relies on the inherent linear nature of a transmission line, and mathematically derives the differential and common-mode transmission line characteristics through superposition while stimulating just one side of the balanced transmission line at a time. The true-balanced/differential technique, also known as True-Mode Stimulus, uses two sources to create actual differential and common-mode stimuli. This white paper offers guidance to signal integrity designers on the differences between these approaches and which one may best fit their need. P/N: 11410-00659
White Paper
pdf 314.3 KB
Version: D
23/08/2018
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