ANALYSIS OF OPTICAL FIBER DIFFERENTIAL PROTECTION BASED ON RELAY ...

Applications of optical fiber in relay protection

Because relay protection plays a significant role in the entire power system, optical fiber communication is generally used as the physical transmission channel of the relay protection device to protect the signal. In this paper, the main technology of optical differential protection, in the process of 6 KV power distribution system reform is how to apply this situation are introduced in detail, at the same time, a detailed description of the relative performance for the optical fiber differential protection. Optical fibre measurement is advancing, vari ous techniques in optical signal pro cessing are still under development and therefore there is still much research to be carried out into the applicability to the power industry.

Optical Differential Relay Protection Model

As OCT has no magnetic saturation, no band limits, and can accurately and quickly transform the full-waveform current signal in principle, the authors put forward a new optical differential protection algorithm which directly use the integral values of the operating current and the. Apply the SEL-411L for complete protection and control of any transmission line (short, long, or series-compensated). With its flexibility and the high-performance DIGSI 5 engineering tool, the SIPROTEC 7SD82 device offers future-oriented. This project work focuses on the design of one such system comprising of microcontroller based line differential protection using fiber optics communication.

Relay Protection Safety Risk Analysis

Hidden fault refers to a system failure has no effect on the system during normal operation, and when to change some parts of the system, the fault will be triggered and thus lead to the occurrence of cascading failure. Is the main function of relay protection in power system appear natural, artificial or equipment failure, failure to timely, accurate cutti.

Lightning Protection Principle for Optical Fiber Cables

The major purpose of lightning protection systems is to conduct the high current lightning discharges safely into the Earth/ground. For example, it will not only affect all DWDM fiber channels in short bursts, but also affect transmission directions. It is the magnitude of the current during lightning strikes and the consequences of its impact on objects that have always attracted the at-tention of researchers, while the other characteristics of lightning have received less attention.

Relay protection differential coordination time

The IEC standard for relay coordination recommends time grading between relays based on fault current magnitude and operating characteristics. Selective short-circuit protection can be achieved in different ways, such as: Time-graded protection Time- and current-graded protection A straightforward way of obtaining selective protection is to use time grading. System Configuration Source Short Circuit MVA (at PCC) Short circuit capacity of the upstream source at the point of common coupling. Achieving coordination and ensuring that time overcurrent and distance relays operate in a predictable manner can be quite burdensome, especially in highly coupled power systems with tight loops in the topology structure. The faster the protection operates, the smaller the resulting hazards, damage and the thermal stress will be.

Applications of optical fiber in relay protection

Optical Differential Relay Protection Model

Relay Protection Safety Risk Analysis

Lightning Protection Principle for Optical Fiber Cables

Relay protection differential coordination time

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