Self-excited generator, Electrical Engineering

The magnetic field can be supplied by coils supplied from the output of the generator itself. This is known as self-excitation.There are three ways that the field coils can be connected to the armature. In parallel (shunt connected), in series (series connected) or a mix of both (compound connected).The equivalent circuit representation of a shunt-connected electrical generator: 

1034_shunt generator.png

Never operate a shunt-connected generator without an electrical load connected 

Posted Date: 8/27/2012 6:35:35 AM | Location : United States







Related Discussions:- Self-excited generator, Assignment Help, Ask Question on Self-excited generator, Get Answer, Expert's Help, Self-excited generator Discussions

Write discussion on Self-excited generator
Your posts are moderated
Related Questions
1. Introduction : Theory: Frequency is the number of occurrences of a repeating event per unit time. It can also be defined as the number of repetitions (cycles) of a w

Preventing Leakages at Insulators Leakages at insulators, cracking of insulators and flashover across insulators frequent cause outages and give output in loss of revenue. Pol

Basic Operations of 8085 Microprocessor The 8085 microprocessor  performs followings  five  basic  operations . 1. Opcode Fetch :  Reading and decoding  operation code  of

What are the different kinds of surface entities used in CAD? Give homogeneous Matrix form equation for : (i) B-Splive Curve (ii) Bezier Curve

Decoders and multiplexers are termed, medium scale integration (MSI) devices; this term implies that the device is complex in construction and usually its operation as well. Below

Buffer A buffer  is a logic circuit that  amplifies the current or power.  Basically it is used  change the driving  capability  of a logical  circuit. Therefore  it is  someti

principle and operation of a 3phace induction motor

design and sketch an optimal circuit that takes a 4 bit number and generates an 8 bit output equal to the square of the input

Q. For the capacitor shown in Figure connected to a voltage source, sketch i(t) and w(t).