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
This document is an industry review of techniques and procedures for evaluation of RF network testing. P/N: 11410-00700
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
The LMR Master is an industry leading handheld RF measurement system that can make the various measurements needed to verify and maintain the GSM-R systems required for a European Train Control (ETCS) system. P/N: 11410-01128
This comparison chart offers a quick overview of the different tests to perform and which analyzer to use to perform those tests. P/N: 11410-00555
Compare models with spectrum analysis and review the different tests they can perform. P/N: 11410-00559
With proper consideration and technique, DTF measurements of raw spools of cable can be made accurately enough in the field to identify handling damage with a reasonable uncertainty bound. P/N: 11410-00899
The S412E offers a solution for installing and maintaining public safety systems. The S412E combines a high performance receiver and spectrum analyzer in a handheld vector network analyzer plus a powerful vector signal generator with internally adjustable power from 0 dBm to –130 dBm. P/N: 11410-00486
This Measurement Guide documents Land Mobile Radio signal analysis functions of the
Anritsu LMR Master handheld instrument. Anritsu currently supports measurement of
Narrowband FM Analog and digital transmitter Land Mobile Radio technologies. P/N: 10580-00243
This SCPI Programming Manual provides information for remote operation of the S412E
LMR Master using commands sent from an external controller through the Ethernet or USB
connection. P/N: 10580-00319
This Measurement Guide documents 3GPP signal analysis for the following Anritsu instruments: BTS Master, Cell Master, Spectrum Master, and LMR Master. P/N: 10580-00234
This Measurement Guide describes Electromagnetic Field (EMF) measurement functions available as Option 444 on Anritsu RF and Microwave Handheld Instruments. Option 444 must be used in conjunction with an Anritsu isotropic antenna, at a frequency range that is within specification of the instrument and antenna used. P/N: 10580-00455
The LMR Master S412E is a compact handheld multi-function analyzer that has been specifically developed for technicians and engineers who install and maintain public safety, utility and private mobile communications systems. P/N: 11410-00594
This quick start guide provides a brief overview of the installation and use of the 70774 Instrument Test Software with the following Anritsu handheld analyzers:
VNA Master Models: MS2024B, MS2025B, MS2034B, MS2035B, MS2026C, MS2027C, MS2028C, MS2036C, MS2037C, MS2038C, and LMR Master S412E.
This manual provides maintenance instructions for the Anritsu LMR Master S412E.
The LMR Master User Guide is part of a set of manuals that cover all of the instrument
functions and their use. This manual covers the instrument overview, system functions, and
other common features, along with a brief guide to basic measurement concepts and setups.
This two page quick overview of the LMR Master covers key specifications, accessories, and options that are available.
Poster showcasing the RF and Microwave Handheld analyzers options. Features Cable and Antenna Analyzers, Base Station Analyzers, Spectrum Analyzers, Vector Network Analyzers, and PIM Analyzers. P/N: 11410-00571
This Measurement Guide describes the test and measurement functions of Anritsu RF and
Microwave Handheld Instruments. Basic spectrum analyzer functions are included with most
Anritsu handheld instruments.
The purpose of an in-building wireless (IBW) system is to provide enhanced network coverage
and/or capacity when the existing macro network is not able to adequately service the
demand. Coverage may be poor due to high penetration losses caused by the building
structure or due to low emissivity glass installed to improve the thermal performance of the building. In dense urban environments, adjacent buildings may create an RF barrier that blocks coverage from nearby macro sites. Tall buildings typically have poor coverage on
upper floors since macro site antennas, many floors below, are specifically designed to
suppress energy radiating above the horizon. Capacity may be an issue in venues such as
stadiums, coliseums and convention centers where many thousands of users may be trying to
simultaneously access the network.