A DC series generator is a type of direct current (DC) generator in which the field winding and armature winding are connected in series, meaning that the current flows through both the field winding and the armature winding in a single loop. This configuration has specific characteristics that distinguish it from other types of DC generators, such as shunt generators or compound generators. Here are the characteristics of a DC series generator:
Voltage Regulation: The voltage regulation of a series generator is poor. This means that as the load on the generator changes, the terminal voltage also changes significantly. When the load increases, the voltage drops due to the increased armature reaction and voltage drop across the armature resistance. Conversely, when the load decreases, the voltage tends to rise.
Open Circuit Characteristics: When the generator is operating without any load (open circuit), the terminal voltage is high due to the absence of armature current. This is because the generated voltage is not significantly affected by the voltage drop across the armature resistance.
Short Circuit Characteristics: When the generator is short-circuited (zero external resistance), the armature current becomes very high. This high current creates a strong magnetic field, resulting in a high back EMF. As a result, the terminal voltage drops to a very low value.
Output Characteristics: The output characteristics of a series generator show that the terminal voltage decreases as the load current increases. This is due to the significant voltage drop across the armature resistance and the increased armature reaction at higher load currents.
Starting Torque: Series generators have high starting torque, which makes them suitable for applications where high torque is required at low speeds, such as in traction systems.
Load Sharing: In applications where multiple generators are connected in parallel, series generators tend to share the load unevenly. This is because, as the load on one generator increases, its voltage drops, causing it to deliver less power and the other generators to pick up more of the load.
Overloading: Series generators can handle overloads better than shunt generators due to their inherent ability to handle high currents. However, overloading can lead to excessive voltage drops and heating.
Application: Series generators are often used in applications where variable speed and high starting torque are required, such as in electric traction systems for trains and trams. However, their poor voltage regulation limits their use in applications where a stable voltage supply is essential.
In summary, the characteristics of a DC series generator include poor voltage regulation, high starting torque, open circuit voltage higher than rated voltage, and a terminal voltage that drops significantly with increasing load current. These characteristics make series generators suitable for specific applications where their strengths align with the requirements of the system.