(b) A 110 kVA, 2300:230 V, 50 Hz, single-phase transformer has the following parameters: Resistance of the primary (high-voltage) winding: Resistance of the secondary (low-voltage) winding: Leakage reactance of the primary (high-voltage) winding: Leakage reactance of the secondary (low-voltage) winding: Core loss resistance (referred to the primary): Magnetising reactance (referred to the primary): R₁ = 0.15 Ω R₂ = 0.0015 2 Ω X₁ = 0.32 2 X₂ = 0.0032 2 Ω Rc = 18.6 k Xm = 3.4 k The transformer is delivering full (rated) load at a rated secondary voltage of 230 V and 0.88 power factor lagging. (i) Draw the equivalent-T circuit (including component values) for the transformer with all quantities referred to the primary (high-voltage) side. (ii) Draw the phasor diagram which relates the primary voltage V₁ to the referred secondary voltage V2. (Notes: Ignore the exciting current. Make sure you label all phasors clearly numerical values are not required.) (iii) Calculate the phasor load current 72, referred to the primary. (iv) Calculate the phasor primary voltage V₁ (you may ignore the exciting current).

Power System Analysis and Design (MindTap Course List)
6th Edition
ISBN:9781305632134
Author:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma
Publisher:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma
Chapter3: Power Transformers
Section: Chapter Questions
Problem 3.16P: A single-phase, 50-kVA,2400/240-V,60-Hz distribution transformer has the following parameters:...
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(b) A 110 kVA, 2300:230 V, 50 Hz, single-phase transformer has the following parameters:
Resistance of the primary (high-voltage) winding:
Resistance of the secondary (low-voltage) winding:
Leakage reactance of the primary (high-voltage) winding:
Leakage reactance of the secondary (low-voltage) winding:
Core loss resistance (referred to the primary):
Magnetising reactance (referred to the primary):
R₁ = 0.15 Ω
R₂ = 0.0015 2
Ω
X₁ = 0.32 2
X₂ = 0.0032 2
Ω
Rc = 18.6 k
Xm = 3.4 k
The transformer is delivering full (rated) load at a rated secondary voltage of 230 V and
0.88 power factor lagging.
(i) Draw the equivalent-T circuit (including component values) for the transformer
with all quantities referred to the primary (high-voltage) side.
(ii) Draw the phasor diagram which relates the primary voltage V₁ to the referred
secondary voltage V2. (Notes: Ignore the exciting current. Make sure you label
all phasors clearly numerical values are not required.)
(iii) Calculate the phasor load current 72, referred to the primary.
(iv) Calculate the phasor primary voltage V₁ (you may ignore the exciting current).
Transcribed Image Text:(b) A 110 kVA, 2300:230 V, 50 Hz, single-phase transformer has the following parameters: Resistance of the primary (high-voltage) winding: Resistance of the secondary (low-voltage) winding: Leakage reactance of the primary (high-voltage) winding: Leakage reactance of the secondary (low-voltage) winding: Core loss resistance (referred to the primary): Magnetising reactance (referred to the primary): R₁ = 0.15 Ω R₂ = 0.0015 2 Ω X₁ = 0.32 2 X₂ = 0.0032 2 Ω Rc = 18.6 k Xm = 3.4 k The transformer is delivering full (rated) load at a rated secondary voltage of 230 V and 0.88 power factor lagging. (i) Draw the equivalent-T circuit (including component values) for the transformer with all quantities referred to the primary (high-voltage) side. (ii) Draw the phasor diagram which relates the primary voltage V₁ to the referred secondary voltage V2. (Notes: Ignore the exciting current. Make sure you label all phasors clearly numerical values are not required.) (iii) Calculate the phasor load current 72, referred to the primary. (iv) Calculate the phasor primary voltage V₁ (you may ignore the exciting current).
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