With the advent of a new Precision Time Protocol specification, new opportunities abound for clock synchronization possibilities within power grid control systems. The third iteration of the Institute of Electrical and Electronics Engineers Standard 1588 specification provides several new features specifically aimed at complex, wide-area deployments in which situational awareness and control require precise time agreement. This paper describes the challenges faced by existing technology, introduces the new time distribution specification, and provides examples to explain how it represents a game-changing innovation
Situational-awareness methods and technologies are crucial elements to ensure power systems reliabil...
Increased real-time monitoring of the electric grid is vital to meet the burgeoning challenges posed...
The loss of time synchronization across a Smart Grid due to local A/D and D/A conversion processes ...
A high precision time base is important for distributed systems in measurement and automa-tion appli...
A high precision time base is especially important for distributed systems in automation. The Precis...
In modern transmission and distribution networks, monitoring, control and protection tasks are usual...
Synchronous electric clocks utilize power grid frequency as their timing reference. Power grid frequ...
Abstract-Monitoring, control and management of modern electric power systems require more and more e...
Clock synchronization is a prerequisite for the realization of emerging applications in various doma...
The monitoring and the management of smart grid require an advanced communication infrastructure. Th...
Often the accuracy or reliability of the time stamps of power quality data coming from different mea...
Desynchronized clocks among network nodes in critical infrastructures can degrade system performance...
The last decade has seen an intensified effort towards an improved, technologically advanced electri...
Transmission smart grids will use a digital platform for the automation of high voltage substations....
The Precision Time Protocol (PTP) according to IEEE 1588 and its variants are increasingly being use...
Situational-awareness methods and technologies are crucial elements to ensure power systems reliabil...
Increased real-time monitoring of the electric grid is vital to meet the burgeoning challenges posed...
The loss of time synchronization across a Smart Grid due to local A/D and D/A conversion processes ...
A high precision time base is important for distributed systems in measurement and automa-tion appli...
A high precision time base is especially important for distributed systems in automation. The Precis...
In modern transmission and distribution networks, monitoring, control and protection tasks are usual...
Synchronous electric clocks utilize power grid frequency as their timing reference. Power grid frequ...
Abstract-Monitoring, control and management of modern electric power systems require more and more e...
Clock synchronization is a prerequisite for the realization of emerging applications in various doma...
The monitoring and the management of smart grid require an advanced communication infrastructure. Th...
Often the accuracy or reliability of the time stamps of power quality data coming from different mea...
Desynchronized clocks among network nodes in critical infrastructures can degrade system performance...
The last decade has seen an intensified effort towards an improved, technologically advanced electri...
Transmission smart grids will use a digital platform for the automation of high voltage substations....
The Precision Time Protocol (PTP) according to IEEE 1588 and its variants are increasingly being use...
Situational-awareness methods and technologies are crucial elements to ensure power systems reliabil...
Increased real-time monitoring of the electric grid is vital to meet the burgeoning challenges posed...
The loss of time synchronization across a Smart Grid due to local A/D and D/A conversion processes ...