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Microsemi Announces IEEE 1588 Timing Synchronization Module

MICROsemi image.pngExample of IEEE 1588 Timing Synchronization Module in Centralized Architecture. Image courtesy of Microsemi. (Click image to enlarge.)
November 21, 2017

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Microsemi Corporation, an Aliso Viejo, California-based  provider of semiconductor solutions, announced today the availability of a new IEEE™ 1588 timing synchronization module, offering a complete self-contained platform for customers to implement IEEE 1588 network timing client protocols. The solution, which consists of hardware, firmware and software, combines capabilities from Microsemi's broad product portfolios by leveraging the company's SmartFusion 2 system-on-chip (SoC) field programmable gate array (FPGA), ZL30363 IEEE 1588 phase-locked loop (PLL) and VSC8575 Ethernet PHY devices.

"Microsemi is a leading provider of network synchronization devices and software solutions," said Maamoun Abou Seido, vice president and business unit manager of Microsemi's timing products. "This new self-contained complete turn-key solution brings together Microsemi's digital PLLs, highly accurate IEEE1588 synchronization algorithms and time stamping PHY devices with our ultralow power programmable SoCs to offer customers fast time to market."

Microsemi's new IEEE 1588 timing synchronization module streamlines customers' developments to add synchronization network timing to their designs, simplifies the sourcing process and reduces development time while providing an easy integration, according to the company. The module also includes drivers, servos/algorithm firmware, IEEE 1588 Precision Time Protocol (PTP) stack software, a user guide and reference board schematics to deliver a fully tested chip-set solution from a trusted tier-one vendor.

"Our differentiated programmable solutions portfolio, including the SmartFusion2 SoC and PolarFire FPGA, is gaining rapid acceptance in the communications and industrial infrastructure market," said Bruce Weyer, vice president and business unit manager for programmable devices at Microsemi. "This tightly integrated solution with our class-leading timing and PHY components will further increase our momentum in these markets where highly accurate timing synchronization is becoming a clear requirement." 

The IEEE 1588 timing synchronization module blends Microsemi's experience with nanosecond-level accurate timestamping for IEEE 1588 via the VSC8575 Ethernet PHY; embedded IEEE 1588 protocol engine and servo via its SmartFusion2 SoC FPGA host processor; and high precision clock generation, holdover and reference switching via its ZL30363 system synchronizer. The solution is addressed via a command line interface to minimize software integration efforts. The combination of these capabilities makes the new solution ideal for applications within the industrial networking, smart grids, communications, defense and data center markets. Depending on the applications holdover and reliability requirements, either an XO, TCXO or OCXO can be used to provide holdover supported by the IEEE 1588 timing synchronization module.

According to a 2017 GNSS Market Report, issue 5, the timing capability offered by satellite navigation systems is at the core of most vital infrastructures; telecom networks operation, energy distribution, financial transactions and TV broadcast are some examples of areas where GNSS is used for timing or synchronization purposes. The annual shipments of GNSS devices used in the timing and synchronization market will exceed 300,000 units in 2017 and are expected to grow at a compound annual growth rate (CAGR) of 5.3 percent over 2017-2025. Catering to this growth opportunity, Microsemi's new IEEE 1588 timing synchronization module is designed specifically for such applications, which require much more precise timing, including base stations and small cell markets for 5G, 4G, 4G LTE, LTE-Advanced, microwave and millimeter wave based fixed wireless networks, smart grids and secure edge networks.

Other key features of Microsemi's new IEEE 1588 timing synchronization module include:
•   High accuracy timestamping of less than 4 nanoseconds
•   Frequency and phase synchronization
•   Holdover with initial accuracy of <1ppb and long-term holdover of 1.5µs over 24 hours using the appropriate performance OCXO
•   Hitless reference switching
•   Precision frequency and phase control
•   Multiple profiles, including IEEE 1588-2008 Annex J.3 End-to-End
•   IEEE 1588-2008 Annex J.4 Peer-to-Peer
•   IEEE C37.238-2011 Power Profile
•   ITU-T G.8275.1 Telecom Profile for Phase
•   ITU-T G.8265.1 Telecom Profile for Frequency

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