Determine the form factor and peak factor, Electrical Engineering

Determine the form factor and peak factor:

Determine the form factor and peak factor for the above half rectified wave.

Solution

From the above example,

I rms  = 0.5 I m

I av        = Im/ π

∴ Form factor = Irms / Iav  = 0.5 Im / (Im/π)  = 1.57

and peak factor

=   Im / Irms =     Im /0.5 Im = 2

Posted Date: 2/5/2013 12:34:10 AM | Location : United States







Related Discussions:- Determine the form factor and peak factor, Assignment Help, Ask Question on Determine the form factor and peak factor, Get Answer, Expert's Help, Determine the form factor and peak factor Discussions

Write discussion on Determine the form factor and peak factor
Your posts are moderated
Related Questions
In practice, it is usually better to wind the field coils on the rotor and supply the field current to them via slip rings.  As the rotor turns, the changing magnetic field expe

Q. Analog Computers? Although not used as much as the digital computer (which nowadays forms the basic tool for numerical analysis and the solution of algebraic as well as diff

Decoder A decoder is  logic  circuit  that energizes a particular  output line for each  combination of input  signal. Fig   shown  the block  diagram  logic diagram  and fu

Core Functionalities of the GIS: The GIS should be able to: 1          Create layers from all supported data sources involving coverage feature classes, shape files, compu

A three-phase transposed line is composed of one ACSR conductor per phase with flat horizontal spacing of 11 meters as shown in Figure (a). The conductors have a diameter of 3.625

Why is an armature winding in d.c machine called closed winding.

Working of Hartley oscillator : When the collector supply voltage Vcc is switched on, the capictor gets charged. The capacitor discharges through the inductor, setting up oscil

The frequency of an oscillator may be measured by an oscilloscope with a callbrated time base(True/False)

Design : Rather than 100 two-motion selectors as in the case of Design 3, let's consider only 24 two-motion selectors. In the case 24 simultaneous calls can be put through the swi

Q. Consider the circuit shown in Figure. Determine the current in the diode by assuming: (a) The diode is ideal. (b) The diode is to be represented by the model of Figure 7.2