Why Transformer Rating In kVA, Not in KW?

Why Transformer Rating In kVA, Not in KW?

In Simple words, 
There are two type of losses in a transformer:
1. Copper Losses
2. Iron Losses or Core Losses or  Insulation Losses
Copper losses ( I²R)depends on Current which passing through transformer winding while Iron Losses or Core Losses or  Insulation Losses depends on Voltage.
That’s why the Transformer Rating may be expressed in kVA,Not in kW.







Different types of transformer

Different types of transformer

Types of Transformers:

There are two basic Types of Transformers
  1. Single Phase Transformer
  2. Three Phase Transformer
Below are the more types of transformer derived via different functions and operation etc.

Types of Transformers w.r.t Cores:

  • Core Type Transformer
  • Shell Type Transformer
  • Berry Type Transformer

Types of Transformer w.r.t uses:

  • Large Power Transformer
  • Distribution Transformer
  • Small Power Transformer
  • Sign Lighting Transformer
  • Control & Signalling Transformer
  • Gaseous Discharge Lamp Transformer
  • Bell Ringing Transformer
  • Instrument Transformer
  • Constant Current Transformer
  • Series Transformer for Street Lighting

Types of Transformer w.r.t Cooling:

  • Self Air Cooled or Dry Type Transformer
  • Air Blast-Cooled Dry Type
  • Oil Immersed, Self Cooled (OISC) or ONAN (Oil natural, Air natural)
  • Oil Immersed, Combination of Self Cooled and Air blast (ONAN)
  • Oil Immersed, Water Cooled (OW)
  • Oil Immersed, Forced Oil Cooled
  • Oil Immersed, Combination of Self Cooled and Water Cooled (ONAN+OW)
  • Oil Forced, Air forced Cooled (OFAC)
  • Forced Oil, Water Cooled (FOWC)
  • Forced Oil, Self Cooled (OFAN)

Types of  Instrument Transformer:

  • Current Transformer
  • Potential Transformer
  • Constant Current Transformer
  • Rotating Core Transformer or Induction regulator
  • Auto Transformer








Different Parts of Transformer

Different Parts of Transformer

1.
Oil filter valve
17.
Oil drain valve
2.
Conservator
18.
Jacking boss
3.
Buchholz relay
19.
Stopper
4.
Oil filter valve
20.
Foundation bolt
5.
Pressure-relief vent
21.
Grounding terminal
6.
High-voltage bushing
22.
Skid base
7.
Low-voltage bushing
23.
Coil
8.
Suspension lug
24.
Coil pressure plate
9.
B C T Terminal
25.
Core
10.
Tank
26.
Terminal box for protective devices
11.
De-energized tap changer
27.
Rating plate
12.
Tap changer handle
28.
Dial thermometer
13.
Fastener for core and coil
29.
Radiator
14.
Lifting hook for core and coil
30.
Manhole
15.
End frame
31.
Lifting hook
16.
Coil pressure bolt
32.
Dial type oil level gauge.

Introduction to Electrical Transformer

Introduction to Electrical Transformer

What is a Transformer?

In Very Simple words.
Transformer is a device which:
  1. Transfer Electrical power from one electrical circuit to another Electrical circuit.
  2. It’s working without changing the frequency.
  3. Work through on electric induction.
  4. When, both circuits take effect of mutual induction.
  5. Can’t step up or step down the level of DC voltage or DC Current.
  6. Can step up or step down the level of AC voltage or AC Current.

  • Without transformers the electrical energy generated at generating stations won’t probably be sufficient enough to power up a city. Just imagine that there are no transformers.How many power plants do you think have to be set up in order to power up a city? It’s not easy to set up a power plant. It is expensive.
  • Numerous power plant have to be set up in order to have sufficient power. Transformers help by amplifying the Transformer output (stepping up or down the level of voltage or current).
  • When the number of turns of the secondary coil is greater than that of primary coil, such a transformer is known as step up transformer.
  • Likewise when the number of turns of coil of primary coil is greater than that of secondary transformer, such a transformer is known as step down transformer.


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