AC Supply Insulated, isolated or ungrounded neutral system

G K Agrawal

30 Oct 201911:24

Summary

TLDRThis video script delves into the concepts of earthed and insulated neutral systems in AC supply. It explains the fundamental differences between the two, highlighting that an earthed neutral system connects the neutral to the earth at the substation, while an insulated neutral system keeps the neutral isolated. The script further discusses the implications of faults in these systems, emphasizing that an insulated neutral system allows continuous operation of equipment during a fault between line and earth, which is crucial for applications like ships and chemical industries where uninterrupted function is vital. It also touches on the use of isolating transformers and safety measures like enclosures to prevent electrical hazards.

Takeaways

🔌 The Earth Neutral System: In this system, the neutral is connected to the earth at the substation, providing a path for fault current to flow, causing the MCB to trip and interrupting the AC supply.
🛡️ The Insulated Neutral System: Here, the neutral is not connected to the earth, preventing fault currents from flowing in the event of a line-to-earth fault, thus maintaining the AC supply and avoiding MCB tripping.
🚫 Fault Handling: In an Earth Neutral System, a fault between the line and earth will cause a short circuit, leading to an MCB trip, whereas in an Insulated Neutral System, such a fault will not result in a short circuit or MCB trip due to the lack of a return path.
⚠️ Single Fault Protection: The Insulated Neutral System offers protection against the first fault between the line and earth but not subsequent faults, which can cause the system to trip.
🔄 Isolating Transformer: An isolating transformer can be used in an Earth Neutral System to create an Insulated Neutral System, preventing short circuit currents from flowing and keeping the equipment operational.
🏭 Industrial Applications: Insulated Neutral Systems are particularly useful in industries where continuous operation of equipment is critical, such as in ships, train engine VFDs, chemical industries, and telecommunication.
🔍 Selective Use: Insulated Neutral Systems are not universally applied but are used selectively in areas where their benefits in maintaining continuous operation are most needed.
🌐 Utility Connections: Even if an Insulated Neutral System is desired, the neutral-to-earth connection made by the electricity board at the substation cannot be avoided without using an isolating transformer.
💡 RCD as an Alternative: Connecting a resistor-capacitor (RC) network between the neutral and earth can provide high impedance, allowing minimal fault current to flow and preventing the MCB from tripping.
🛡️ Safety Precautions: For safety, enclosures are used in Insulated Neutral Systems, with the enclosure body connected to the earth to prevent unauthorized access and potential hazards.
🔄 Comparison of Systems: The Earth Neutral System is more prone to MCB tripping after a fault, while the Insulated Neutral System maintains operation unless a second fault occurs, emphasizing the importance of timely repairs.