Question

A short-shunt compound generator delivers a load current of 30 A at 220 V, and has armature, series-field and shunt-field resistances of 0.05 Ω,0.30Ω and 200Ω respectively. Calculate

The induced emf and the armature current. Allow 1.0 V per brush for contact drop.

Answer 1

The induced emf in the short-shunt compound generator is approximately 208.4 V. The armature current is approximately 0.058 A.

Step-by-step explanation:

The induced emf in a short-shunt compound generator can be calculated using the equation:

E = V - Ia(Ra + Rs)

where E is the induced emf, V is the load voltage (220 V), Ia is the armature current, Ra is the armature resistance (0.05 Ω), and Rs is the series-field resistance (0.30 Ω).

The armature current can be calculated using Ohm's Law:

Ia = (V - Eb) / (Ra + Rs)

where Eb is the back emf.

Considering the 1.0 V per brush for contact drop, the induced emf can be calculated as:

E = 220 V - 30 A * (0.05 Ω + 0.30 Ω) - 2 V

E = 220 V - 9.6 Ω - 2 V

E ≈ 208.4 V

The armature current can be calculated as:

Ia = (220 V - 208.4 V) / (0.05 Ω + 0.30 Ω + 200 Ω)

Ia ≈ 11.6 V / 200.35 Ω

Ia ≈ 0.058 A