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Upgraded Network Master Pro MT1000A Synchronous Measurement Function for 5G Mobile Network I&M

2021/5/24

For configuring time-synchronous infrastructure supporting Private 5G and O-RAN base station 5G services

Anritsu Corporation has announced an upgraded synchronous measurement function for the company’s Network Master Pro MT1000A, the industry’s smallest- in-class tester supporting mobile networks up to 100 Gbps. Fifth-generation (5G) networks are expected to support increasing future numbers of applications and services, such as hi-definition video streaming, autonomous driving, IoT sensing, smart factories, etc. By upgrading this MT1000A test function, Anritsu hopes to facilitate construction of time-synchronous infrastructure, a key technology supporting 5G networks.

New Product Outline

The MU100090B is a GNSS disciplined oscillator supporting GPS, Galileo, GLONASS, Beidou and QZSS. It receives signals from each of these GNSS to output a UTC-traceable reference time signal as well as 10-MHz signals as a time-synchronous, high-accuracy reference timing supplied to the portable MT1000A, supporting SyncE Wander and PTP tests up to 25 Gbps for measuring network time synchronization.

Furthermore, multiple MT1000A testers at various remote sites can be operated and monitored from the central office using the Site Over Remote Access MX109020A (SORA) software to help quickly pinpoint synchronization problems.

[Click for more details of MT1000A]

Development Background

Deployment of 5G communications networks is spreading due to the advantages of ultra-high speeds, high reliability, low latency, and multiple simultaneous connections in various scenarios. The millimeter-wave (mmWave) band used by 5G technology employs the TDD time-division duplexing technology for managing timing of uplink and downlink signals. This technology requires that the time at all base stations is precisely synchronized, otherwise interference will cause degraded communications quality. Moreover, achieving a “smart” IoT-based society will require cooperation between devices exchanging position information acquired using OTDOA positioning technology, which is ideal for IoT applications, but high-accuracy position measurement is impossible without high-accuracy time synchronization between base stations.

Base stations can be synchronized using wired-network technologies called SyncE and PTP, which require both measurement of the network time-synchronization performance when installing and maintaining a cell site, along with guaranteed network performance by the network operator.

Moreover, the O-RAN Alliance, which is a mainstream promoter of base-station multivendors, increasingly requires tests of overall mobile network time-synchronization performance to assure interconnectivity.

Time-synchronization quality is indicated by drift from coordinated universal time (UTC), so precise time-synchronization measurement requires expensive infrastructure to acquire UTC with high accuracy. This can be a challenge at installation and maintenance of many cell sites.

Anritsu has developed many test instruments for measuring the jitter and wander of transport networks since the SDH/SONET era. Adding this new High Performance GNSS Disciplined Oscillator MU100090B to the line of modules for the portable, battery-operated MT1000A will help simplify on-site I&M time-synchronization tests.

Key Features

  • High-accuracy multiband measurement
    Interference caused by the ionosphere between the antenna and a satellite is a major cause of noise and inaccuracy. Since the MU100090B can simultaneously receive signals in two frequency bands from GNSS, it can self-correct for these ionospheric errors.

  • Convenient on-site support for multiple GNSS
    At least four satellites must be visible to capture the reference timing with high accuracy from the GNSS. Adding other national satellite systems in addition to the U.S. GPS greatly improves the accuracy of the captured reference timing. Using the MU100090B with other satellites, such as GLONASS and Galileo, makes it easy to capture a precise reference timing.

  • Short warm-up time and high-stability Holdover
    Signals from satellites are easily affected by external factors causing extreme short-term instability in timing data. The MU100090B has a function for learning GNSS timings to estimate and output the optimum timing for time-synchronization measurement via the built-in rubidium oscillator. In comparison to the earlier MU100090A model, a revision of this learning algorithm has cut the warm-up time by more than one-quarter, helping improve the efficiency of measurement work.
    Moreover, the Holdover stability is also improved, which is useful for time-synchronization tests at locations where satellites are not visible, such as in underground malls, stadiums, and equipment cabinets.

Target Markets and Applications

  • Target Markets: Communications operators, network installers, communications equipment vendors
  • Applications: Installing, maintaining, and troubleshooting communications networks, simple evaluation of communications equipment

About Anritsu

Anritsu Corporation (www.anritsu.com) is a global provider of innovative communications test and measurement solutions. The company’s philosophy engages customers as true partners to help develop wireless, optical, microwave/RF, and digital solutions for R&D, manufacturing, installation, and maintenance applications, as well as multidimensional service-assurance solutions for network monitoring and optimization. Anritsu also provides precision microwave/RF components, optical devices, and high-speed electrical devices for communication products and systems. The company develops advanced solutions for 5G, M2M, IoT, as well as other emerging and legacy wireline and wireless communication markets. Anritsu sells in over 90 countries worldwide with approximately 4,000 employees.


For further information please contact:

https://www.anritsu-apsr-response.com/acton/media/19504/zh-tw-request-product-quote-form

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