Abstract
With the global trend to digitalize substation automation systems, International Electro technical Commission 61850, a communication protocol defined by the International Electrotechnical Commission, has been given much attention to ensure consistent communication and integration of substation high-voltage primary plant assets such as instrument transformers, circuit breakers and power transformers with various intelligent electronic devices into a hierarchical level. Along with this transition, equipment of primary plants in the switchyard, such as non-conventional instrument transformers, and a secondary system including merging units are expected to play critical roles due to their fast-transient response over a wide bandwidth. While a non-conventional instrument transformer has advantages when compared with the conventional one, extensive and detailed performance investigation and feasibility studies are still required for its full implementation at a large scale within utilities, industries, smart grids and digital substations. This paper is taking one step forward with respect to this aim by employing an optimized network engineering tool to evaluate the performance of an Ethernet-based network and to validate the overall process bus design requirement of a high-voltage non-conventional instrument transformer. Furthermore, the impact of communication delay on the substation automation system during peak traffic is investigated through a detailed simulation analysis.
Highlights
Identification and rapid isolation of faulty zones in power system networks are among the essential features of a smart protection system
The affected feeders, incomers and bus sections must be returned to a healthy state while keeping the network stability intact
remote terminal unit (RTU) is a microprocessor device that acts as a gateway between the field device and control room human machine interface (HMI)
Summary
Identification and rapid isolation of faulty zones in power system networks are among the essential features of a smart protection system. A proper intelligent protection system must respond extremely fast to restore the isolated faulty zones to reduce unplanned outages and improve network reliability. The affected feeders, incomers and bus sections must be returned to a healthy state while keeping the network stability intact. This can be achieved by adopting a robust communication protocol between the protection system and the primary assets in the switchyard. RTU is a microprocessor device that acts as a gateway between the field device and control room
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