Long-Range Microsecond Time Synchronization with PTPv2 over Nessum Networks
To achieve microsecond-level time synchronization, PTPv2 (Precision Time Protocol version 2) is one of the most effective approaches. By using Layer 2 (L2) switches that support PTPv2 over CAT5 cables, it is possible to distribute highly accurate time. However, this method is limited by its reliance on a star topology, which tends to increase cable lengths and network complexity.
Moreover, when synchronization is required over distances of several kilometers, optical fiber becomes necessary, significantly increasing infrastructure costs. This makes the approach unsuitable for many IoT applications, where cost, simplicity, and flexibility are critical.
The combination of Nessum and PTPv2 overcomes these challenges.
Nessum with PTPv2: A Flexible and Scalable Solution
Nessum supports PTPv2 as defined in IEEE 1901c. In a Nessum network, the system functions as a boundary clock, with time distributed from a Nessum Master to all connected Terminals.
Unlike traditional PTPv2 deployments, Nessum allows for free topology—such as bus, tree, or ring structures—over a variety of wired media including twisted-pair and power lines. This greatly reduces the need for centralized cabling and optical fiber, lowering costs while enabling long-range synchronization across several kilometers.
This architecture enables accurate time distribution while also providing devices with Nessum’s inherent features: robust signal transmission, high security, and flexible channel functionality.
Additionally, PTPv2’s delay measurement mechanism enables precise estimation of path delays, which can also be used for physical length measurements between devices.
Potential Applications
Monitoring of Large-Scale Infrastructure
For critical infrastructure such as bridges and dams, Nessum enables microsecond-accurate data synchronization across widely dispersed sensors—such as deflection sensors on bridge girders or water level gauges in dam reservoirs. This precision supports early detection of subtle structural deformations or signs of deterioration, contributing to predictive maintenance strategies and more reliable structural health assessments, especially during large-scale natural disasters.
Enhancing Ultrasonic Indoor Positioning
Ultrasonic indoor positioning systems can achieve centimeter-level accuracy, but they rely heavily on microsecond-level synchronization between multiple sensors. Nessum simplifies this requirement by providing microsecond-accurate time synchronization over 1–2 km of copper wiring. This eliminates the need for traditional fiber optics or complex PTP wiring, making it easier to build large-scale ultrasonic sensor networks. The result is a flexible and cost-effective solution for high-precision applications such as AGV navigation in factories, control of precision robotics in delicate operations, and real-time location tracking in medical facilities.
Enhanced Security through Acoustic Monitoring
In factories, large-scale facilities, and public spaces, deploying widely distributed acoustic sensors—such as microphone arrays—synchronized with microsecond-level precision enables highly accurate localization of abnormal sounds, including gunshots, screams, or breaking glass. This enables real-time, wide-area surveillance that conventional systems struggle to achieve, supporting swift initial responses and effective evidence preservation during incidents or emergencies, thereby significantly enhancing overall security.
Timestamped Event Monitoring in Smart Grids
In smart grid systems, which increasingly integrate distributed energy resources like solar and wind power, accurately timestamping events from smart meters, circuit breakers, and power quality sensors down to the microsecond level is essential. Such synchronization ensures grid stability, facilitates rapid fault analysis, and improves the efficiency of energy exchange. Given the wide geographic distribution of power infrastructure, Nessum’s ability to provide long-range, high-precision synchronization over copper wiring is particularly valuable.
High-Precision Time Synchronization for Building and Facility Emergency Response
In buildings and large facilities, emergency systems such as ventilation fans, lighting, emergency doors, and fire alarms must operate in a coordinated manner during incidents like fires. Microsecond-level time synchronization ensures these systems activate without delay and at optimal timing, enabling accurate monitoring of smoke propagation and the establishment of safe and rapid evacuation routes. This level of coordination is essential for protecting both lives and assets, with its importance increasing proportionally to facility size.
Synchronization of Train and Railway Signaling Infrastructure
In railway infrastructure, where safety and timing are paramount, microsecond-level time synchronization is critical for operations such as signal control, level crossing management, and train position detection. Nessum provides a compelling solution for these applications, particularly in areas where installing optical fiber is physically or economically challenging. By leveraging existing copper wiring, operators can enhance both safety and operational efficiency without large-scale infrastructure overhauls.
Immersive Experience Synchronization in Entertainment Venues
In large-scale entertainment venues—such as outdoor arenas, multi-zone facilities spanning over a kilometer, and expansive theme parks—microsecond-level synchronization of audio systems, large video displays, lighting, and special effects eliminates perceptible delays between sound and visuals. This enables seamless coordination of all sensory elements, delivering a continuous and highly immersive storytelling experience that enhances audience engagement and elevates overall visitor satisfaction.
Unlocking New Possibilities
The combination of PTPv2 and Nessum removes the traditional limitations of time-synchronized applications.
By enabling microsecond-level synchronization over long distances and various wiring infrastructures—including twisted-pair, coaxial cables, and even power lines—this solution addresses the cost, complexity, and topology constraints that have hindered traditional deployments. It opens the door to a wide array of time-sensitive applications in sectors ranging from infrastructure monitoring and industrial automation to transportation, energy, and entertainment.
With its flexibility, scalability, and robustness, Nessum with PTPv2 is poised to become a core enabler of next-generation synchronized systems, allowing engineers and developers to reimagine what’s possible in connected environments.
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About the Author
Kengo Tamukai is a senior engineer specializing in wired and wireless communication technologies. With over 20 years of experience in LSI design, system architecture, and technical marketing, his expertise spans SoC design, OFDM-based technologies, and hybrid communication systems, driving innovation in modern digital networks.
