How to Calculate Phase Current in Balanced Delta Connected Power Systems

What is the relationship between line current and phase current in a three-phase balanced delta connected power system?

a. Line current = √3 * Phase current

b. Line current = Phase current / √3

Final answer: The relationship between line current and phase current in a three-phase balanced delta connected power system is Line current = √3 * Phase current.

Explanation:

In a three-phase balanced delta connected power system, the line current is related to the phase current by the equation Line current = √3 * Phase current.

When dealing with a three-phase balanced delta connected power system, it is important to understand the relationship between line current and phase current. In this system, the line current is not equal to the phase current, but rather it is related to the phase current by a specific formula.

The formula to calculate the phase current from the line current in a three-phase balanced delta connected power system is Line current = √3 * Phase current. This formula helps in determining the phase current when the line current is known.

By using this formula, we can easily calculate the phase current in the system and ensure that the electrical components are operating within their specified limits. Understanding this relationship is crucial for maintaining the efficiency and safety of the power system.

Overall, knowing how to calculate the phase current in a three-phase balanced delta connected power system is essential for proper system operation and maintenance.

← Angular speed of a radial saw blade Energy storage where does energy go when lenore pushes a box up an inclined plane →