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
Q. Show the Storage Layout of digital system? The IEEE floating point numbers have three basic components: the sign, the exponent, and the mantissa. A mantissa is composed of t

Dissemination of Learning - KPI Management has initiated a program, consequently invested a considerable amount of resources and learnt a lesson too. This learning now needs t

Q. Explain Block diagram of the system? The block diagram is a pictorial representation of the equations of the system. Each block represents a mathematical operation, and the


Find out Form factor and Peak factor: For the output of full wave rectifier, find out (a) RMS value, (b) Average value, (c) Form factor, and (d) Peak factor. S

Q. What do you mean by Negative Clamper? During the positive half cycle the diode conducts and acts like a short circuit. The capacitor charges to peak value of input voltage V

Static Rotor Resistance Control Methods This method is used only for slip  ring induction motor in SRIM  3- phase  variable  resistor can be inserted in the rotor  circuit and

Describe the construction and working of atleast two types of storage CRO

Hybrid Model for Two-port Network:-             V 1 = h 11 i 1 + h 12 V 2                                                                             I 2 = h 1 i 1

Q. Consider a BJT switch connected to the next stage, as shown in Figure, in which iout is likely to be negative when v out is high. Assume V CC = 5 V, R C = 1k, and the high r