Electrical Machines Tutorial
Selected Reading
- Electrical Machines - Discussion
- Electrical Machines - Resources
- Electrical Machines - Quick Guide
- Power Developed by Synchronous Motor
- Equivalent Circuit and Power Factor of Synchronous Motor
- Working of 3-Phase Synchronous Motor
- Losses and Efficiency of 3-Phase Alternator
- Output Power of 3-Phase Alternator
- Armature Reaction in Synchronous Machines
- Working of 3-Phase Alternator
- Construction of Synchronous Machine
- Introduction to 3-Phase Synchronous Machines
- Methods of Starting 3-Phase Induction Motors
- Speed Regulation and Speed Control
- Characteristics of 3-Phase Induction Motor
- Three-Phase Induction Motor on Load
- Construction of Three-Phase Induction Motor
- Three-Phase Induction Motor
- Single-Phase Induction Motor
- Introduction to Induction Motor
- Applications of DC Machines
- Losses in DC Machines
- Types of DC Motors
- Back EMF in DC Motor
- Working Principle of DC Motor
- Types of DC Generators
- EMF Equation of DC Generator
- Working Principle of DC Generator
- Types of DC Machines
- Construction of DC Machines
- Types of Transformers
- Three-Phase Transformer
- Efficiency of Transformer
- Losses in a Transformer
- Transformer on DC
- Ideal and Practical Transformers
- Turns Ratio and Voltage Transformation Ratio
- EMF Equation of Transformer
- Construction of Transformer
- Electrical Transformer
- Fleming’s Left Hand and Right Hand Rules
- Concept of Induced EMF
- Faraday’s Laws of Electromagnetic Induction
- Rotating Electrical Machines
- Singly-Excited and Doubly Excited Systems
- Energy Stored in a Magnetic Field
- Electromechanical Energy Conversion
- Electrical Machines - Home
Selected Reading
- Who is Who
- Computer Glossary
- HR Interview Questions
- Effective Resume Writing
- Questions and Answers
- UPSC IAS Exams Notes
Three-Phase Transformer
Three-Phase Transformer
In practice, electrical power is generated, transmitted and distributed by using three-phase system. Therefore, we require a three-phase transformer to step-up or step-down the voltage at various stages of a power system network.
We can construct a three-phase transformer in one of the following two ways −
We can connect three separate single-phase transformers for 3-phase operation. This arrangement is known as a three-phase bank of transformers.
We can construct a single three-phase transformer which consists of a magnetic core and having windings for all the three phases. This whole assembly is combined in a single structure.
The windings of a three-phase transformer may be connected in the following ways −
Star-Star Connection − In this case, both primary and secondary windings are connected in star connection.
Delta-Delta Connection − In this case, both primary and secondary windings are connected in delta connection.
Delta-Star Connection − In this case, the primary winding is connected in delta, while the secondary winding is connected in star.
Star-Delta Connection − In this case, the primary winding is connected in star while the secondary winding is connected in delta.
Construction of Three Phase Transformer
A three phase transformer can be constructed in two ways namely core-type construction and shell-type construction.
Core Type Construction
In the core type construction of 3-phase transformer, the magnetic core has three vertical pmbs and two horizontal sections as shown in Figure-1. Here, one pair of primary and secondary windings is placed on each pmb. The low voltage (lv) winding is placed next to the core while the high-voltage (hv) winding is wound around the lv winding.
Shell Type Construction
A shell type three-phase transformer can be constructed by stacking three single-phase shell-type transformers together as shown in Figure-2. In this case, both primary and secondary windings are placed on the central pmb and the two outer pmbs serve the path for flux. The behavior of a shell-type three-phase transformer is almost similar to that of a bank of three single-phase transformers.
Advantages of a Bank of Three Single Phase Transformers
The following are the major advantages that a bank of three single-phase transformers have over a three-phase unit transformer −
When one 1-phase transformer of a bank of transformers is damaged and isolated from the service, the remaining two transformers may be used to supply power in open-delta connection.
In the bank of transformers, we can provide a single-phase transformer with higher kVA rating than the others to supply an imbalance load.
For a bank of three single-phase transformers, the standby requirement is lesser.
It is more convenient to transport a 1-phase transformer than a 3-phase transformer.
Advantages of a Three Phase Unit Transformer
For the same kVA rating, a three-phase unit transformer has the following advantages over a bank of three single-phase transformers −
A three-phase unit transformer is smaller in size, pght in weight and cheaper.
It is more efficient than bank of transformers.
Its installation is simple.
Depending upon the requirements, we use both bank of transformers and a three-phase unit transformer. However, it is a common practice to use a three-phase unit transformer.
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