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NOMEX protective garment

Advanced protection against electromagnetic exposures and electric arc

HAZARDS AROUND

While working live in the energized grid, presence of voltage around the workers requires special attention. However, live-line (live working) techniques are widely applied for decades, several accidents in the past prove that the level of safety must be improved to minimize the number and seriousness of injuries in the future.
In the high voltage grid, bare-hand method is a common technique for safe live work. In the surroundings of any energized equipment,...

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Counterfeiting Kills

Each year, the counterfeiting of well-known brands and products continues to rise, creating an even more threatening problem. Such well-known counterfeited brands, including consumer safety and critical electrical products, are estimated to be five to seven percent of world trade. The International...

Introducing Intelligent Power Today

Welcome to Intelligent Power Today Magazine, our publication that explores and explains the who, what, where, when, why and how of intelligent electrical devices, a collection of complex mechanical devices and sophisticated control systems used in industrial, commercial, and institutional...

Electrical Protection

Conventional Methods to AI-Based Solutions

Evolution of Transformer Protection

The protection of electrical transformers is crucial for maintaining the stability and efficiency of power systems. Traditionally, protection schemes have relied on mechanical and analog devices to detect and mitigate faults. However, the landscape of transformer protection is evolving, with artificial intelligence (AI) and machine learning (ML) technologies emerging as game-changers in the field.

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Conventional Protection Methods

Traditional transformer protection mechanisms typically involve overcurrent relays, differential protection schemes, and Buchholz relays. These methods have been the backbone of transformer protection, offering reliable performance in detecting and isolating faults.

Limitations of Conventional Methods

While effective in many scenarios, conventional protection systems have limitations. They often require manual settings and adjustments, lack the ability to adapt to changing network conditions, and can be slow to respond to complex fault scenarios. Moreover, their diagnostic capabilities are limited, making it difficult to predict...

Electrical Protection Articles


Transformer Protection

Improving Grid Stability

Electrical transformers are vital components in power transmission and distribution systems, stepping up or down voltage levels to efficiently deliver electricity. However, these transformers are susceptible to various internal and external faults that can lead to catastrophic damage and widespread...