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
Anritsu has teamed with Diamond Engineering and Diamond Microwave Chambers to create a robust anechoic chamber solution for conducting various antenna measurements.
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
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
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
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
The purpose of this Measurement Guide is to introduce the basic calibration and operation of the ShockLine MS46122A/B, MS46131A, and MS46322A/B Series Vector Network Analyzer (VNA) and reduce the time required to become
proficient at performing basic measurements. P/N: 10410-00336
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
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
Introduces Anritsu 5G solutions and products.
Anritsu will contribute to customer's 5G product development and future innovation of network.
This application note will explore: application drivers for 43.5 GHz development; connector fundamentals; what traceability is and why it is important; connectors for 43.5 GHz applications; and finally, current solutions on the market that can address 43.5 GHz operation with traceability. P/N: 11410-01165
The Anritsu VectorStar and ShockLine vector network analyzers (VNAs) are compatible with the SWISSto12 MCK systems, and are ideal for active and passive material measurements. P/N: 11410-01167
The Anritsu VectorStar and ShockLine vector network analyzers (VNAs) are compatible with Compass Technology hardware fixtures and CTG software systems, and make an ideal solution for material measurements. P/N: 11410-01182
Anritsu’s ShockLine and VectorStar series vector network analyzers are now compatible with all the available solutions from Keycom Technologies for various types of material measurements methods including: resonator, frequency change, probe type, co-axial tube and waveguide type S-parameter, free space, capacitance, epsilometery, and many more. P/N: 11410-01191
This application note will examine the issues component and device manufacturers and their engineers will face when designing their solutions in higher frequencies. P/N: 11410-01190
This application note introduces Line-Reflect-Line (LRL) calibration method to achieve an accurate measurement of the surface-mount device (SMD) when it is soldered onto a PCB fixture. The advantage of LRL calibration is that the calibration kit has the same material or dielectric constant and similar trace characterization as the fixture, which enables customers to readily fabricate the LRL calibration kit from the same lot as the fixture. P/N: 11410-01122
The ShockLine Family of Vector
Network Analyzers provide a broad range of solutions to meet your unique performance, application, and budget needs. P/N: 11410-01039
This leaflet introduces our high performances testers for automotive markets and let our targets know Anritsu’s total automotive lineup at a glance. Easy QR codes linking to product websites to get more detail information.
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
This paper presents an accurate, flexible and cost-effective technique to conduct electro-optical testing on fiber optic components, such as laser modulators and photodiodes, using VNAs. The simplicity of Anritsu’s MN4765B O/E calibration modules allows highly accurate, vector-error-corrected and stable measurements with the full line of Anritsu VNAs. P/N: 11410-01034