Physics, asked by bettvincenttb, 3 months ago

A 5 kVA single-phase transformer has a turn ratio of 10:1 and is fed from 2.5kV supply.
Neglecting the losses, determine:
a. The full load secondary current
b. The minimum load resistance which can be connected across the secondary winding
to give full load kVA
c. The primary current at full load kVA

Answers

Answered by amitnrw
1

Given : A 5 kVA single-phase transformer has a turn ratio of 10:1 and is fed from 2.5kV supply.

Neglect  the losses,  

To Find :  

a. The full load secondary current

b. The minimum load resistance which can be connected across the secondary winding to give full load kVA

c. The primary current at full load kVA

Solution:

A 5 kVA single-phase transformer has a turn ratio of 10:1

fed from 2.5kV supply.

Primary Voltage = 2.5 kV

Primary current = 5 kVA/ 2.5 kV  = 2 A

The primary current at full load kVA = 2A

N₁ / N₂  = V₁ / V₂   = I₂ / I₁

N₁ = Primary turn

N₂ = secondary turn

V₁ = Primary voltage

V₂ = secondary voltage

I₁ = Primary current

I₂ = Secondary current

turn ratio of 10:1

N₁ / N₂ = 10/1  = 10

V₁ / V₂  = 10  => V₂ = V₁/10

=> Secondary voltage  V₂   = 2.5 kV/10  = 2.5 * 1000 / 10  =   250 V

I₂  = 10I₁

    Secondary current  = 2 * 10  =  20 A

The full load secondary current = 20A

minimum load resistance which can be connected across the secondary winding to give full load kVA   = V₂ /  I₂  =  250 / 20  = 12.5 Ω

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