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
This Technical data sheet includes the GPS, Yagi, Horn, Mag Mount, Wideband, Log Periodic, Whip, Bi-Blade, and Loop antennas. P/N: 11410-00376
SpectraVision is a suite of software options and tools used with Anritsu’s MS2710XA product line of spectrum monitors. SpectraVision is a highly modular software system covering the entire frequency range of Anritsu's
Remote Spectrum Monitors. Various features incorporated into the software allow users to quickly perform automated analyses of the frequency spectrum, record measurements and generate optional reports detailing
signal quality and performance characteristics. P/N: 11410-00960
The purpose of this application note is to detail the procedure for creating off-line maps. While there are several open source options for tile map construction, this application note will be using Map Puzzle to detail the method for incorporating these maps into the Anritsu software application. P/N: 11410-01132
This Online Help System is a compilation of manuals for easier viewing. P/N: 10450-00066
Online Help System
The MS27103A provides 12 RF Input ports as a standard configuration (24 RF Input ports are available with Option 424).
This model is typically used with three or six sector BTS architectures, with multiple carriers per sector. A high speed switch
is placed in the monitor to provide measurement capability for each RF input. A greater than 30 dB isolation is provided
between each RF Input port to assure the integrity of the measurement. P/N: 11410-00854
AeroShield is a Windows .NET library (API) that runs on a Server/PC using the Windows 10 Visual Studio 2015 or higher (.NET framework 4.5.2 or higher) operating system. The API software enables the detection and tracking of Counter-Unmanned Aircraft Systems (C-UAS). The API software connects exclusively to Anritsu's line of Remote Spectrum Monitors. P/N: 10580-00462
AeroShield is quickly integrated into a C-UAS integrator's software dashboard through the use of an application programming interface (API). The API contains all the functions and algorithms required for RF detection and tracking. Along with the API, a demonstration program is available to show AeroShield capabilities prior to the integration effort. P/N: 11410-01131
This documentation provides a description of the Anritsu Remote Spectrum Monitor MS2710xA software. It describes the graphical user interface, provides a how-to chapter to set up measurements, discusses SCPI programing, and covers a lists of SCPI programming commands. P/N: 10450-00052
Online Help System
Vision software is also provided as an option for all spectrum monitor models. Vision works with the monitoring hardware to automate the process of collecting measurement data, providing useful information about network heath and use of the spectrum. Vision is composed of two components responsible for monitoring and locating interference signals, called Vision Monitor (option 400) and Vision Locate (option 401). Vision Monitor automatically records spectrum data, maintains a searchable spectrum history database, enables alarm functions for unusual signal activity and provides a set of tools for managing the spectrum monitoring system. Vision Locate provides the capability to geo-locate interference or illegal, unlicensed signals. To properly locate signal positions, three or more monitors must be used. P/N: 10580-00418
Download the complete user guide for the MS2710xA family of Remote Spectrum Monitors. Chapters include Graphical User Interface, How to, and Programming with SCPI. P/N: 10580-00419
To communicate with the MS2710xA Remote Spectrum Monitor or to change its IP configuration, a PC must be correctly set up to communicate with the instrument via a direct connection using a static IP. This guide explains how to set this up. P/N: 10580-00414
Quick Start Guide
There are various methods for geo-locating an RF signal of interest. Primary alternatives include Power of Arrival (POA), Time Difference of Arrival (TDOA), and Angle of Arrival (AOA). In most situations where modulated signal bandwidths are greater than 25 kHz, TDOA provides the best accuracy. This application note focuses on the use of TDOA as a means for tracking a signal. P/N: 11410-01133
The MS27103A is a multiple RF input spectrum monitor ideal for measuring signals from multiple antennas. The solution provides 12 RF input ports as a standard configuration and is typically used with a three-sector BTS cellular architecture with multiple carriers per sector. This is a quick overview of the features, key specifications, and options available. P/N: 11410-01086
With the large increase in mobile data traffic, network operators are moving the BBU (BaseBand Units) from macro cell sites to a common central location allowing greater flexibility and cost savings. The connection from the BBU to the RRH (Remote Radio Head) is most commonly via CPRI at rates between 614.4 kbps to 10,137.6 Mbps. P/N: 11410-00927
Transport, Optical & RF Testing for all Elements of the C-RAN Network.
Anritsu has a long history of testing all aspects of the C-RAN. Our instruments evolve to meet the new challenges of testing the C-RAN
networks being rolled out today. Put our experience to work for you!
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.
This solution brochure covers the four steps to success when interference hunting, as well as which Anritsu product/solution is suitable for each step in the process. P/N: 11410-00900
With the proliferation of cellular standards and new frequencies being assigned, operators face increasing challenges to keep their networks operating at an optimal level. Interference from a variety of sources leads to
dropped calls, slow data rates and poor network performance. Today's users want their applications to work anywhere and anytime, at the fastest data rates possible. Optimizing the user experience is therefore a primary
goal of network operators. This translates into customer loyalty, reduced customer churn and superior brand.
This documentation provides a description of the Anritsu’s Remote Spectrum Monitor (RSM) and Vision Software API’s. It describes the graphical user interface, provides a how-to chapter to set up measurements, discusses API programing, and covers a lists of API programming commands. API's are presented both for control of Anritsu's RSM hardware product line (MS2710XA) as well as for Vision software. Most features in Vision are paid options. In order for these options to work, the RSM hardware must have these options
enabled. Please see the Vision software Product Brochure and User Guide for option information.