capacitance and dissipation factor
DESCRIPTION
This document is a basic material providing general description of Capacitance. What is Loss Angle and Tan Delta/Dissipation factor is also dealt with in this presentation. You are requested to visit http://www.etrical.blogspot.inTRANSCRIPT
Measurement of Power Factor / Dissipation Factor
Capacitance and Dissipation Factor
What is Capacitance?A Capacitor is a device which has the
capability to store energy in its Electric Field. Therefore we can say that a Capacitor can store charge. There are many types of Capacitor but the most basic Capacitor is Parallel Plate Capacitor. We will consider this basic capacitor for getting idea of basic but important parameters of Capacitor.
A parallel plate Capacitor is made of two plates separated by some distance. Let’s assume that the separation between the plates is d. We apply a DC voltage across the parallel plate. What will happen then?
What is Capacitance?Obviously the charges will start to
accumulate on the plate and will continue to accumulate until the potential difference between the plates becomes equal to applied Voltage V. Say charge +Q is accumulated on one plate and –Q on another plate. Then mathematically we can haveQ = CVHere the term C is known as Capacitance
Does the Capacitance depend upon the Voltage applied across the Capacitor?You might answer yes. But it’s not correct.
Capacitance only depends upon the physical dimension, dielectric and geometry of Capacitor.
In fact the value of Capacitance for a parallel plate Capacitor is given as C = E0ErA / d
Where E0 = Permittivity of free space. Er = Relative permittivity of dielectric. d = Separation between the plates.
A = Cross sectional area of plate
Does the Capacitance depend upon the Voltage applied across the Capacitor?So, from the above it is quite clear that
Capacitance depend only on dimension, dielectric and geometry.
Importance of Capacitor?A Capacitor finds much use in Electrical
Engineering and Technology. The size of Capacitor varies from very small to large one. The application of Capacitor ranges from tiny electronic circuit to 765 kV Circuit Breaker as Grading Capacitor.
Therefore, it is very much important Capacitor is in pure state but honestly speaking it is much difficult to manufacture pure Capacitor rather it have some resistance in it which causes ohmic loss. Therefore, the measurement of this loss is much needed. The question arises how do we measure this loss? The answer is simple, by measuring Dissipation Factor.
What is Dissipation Factor?For answering this question we need to realize
a real Capacitor. A Capacitor can be realized as series combination of small resistance of dielectric medium and capacitance as shown in picture below.
What is Dissipation Factor?If the Capacitor had been pure then it would
have taken current Ic leading by angle 90 degree but because of resistive component of dielectric, net current drawn is deviating from 90 degree by some angle δ. This angle δ is hence called Loss Angle. From the phasor diagram, it is clear that
tanδ = Ir / Ic = Capacitive leakage current / Resistive leakage current.
This tanδ is also called Dissipation Factor. Why called Dissipation Factor? Be patient, you will come to know latter in this topic.
What is Dissipation Factor?Now, we will calculate the Power Factor of the
Capacitor. If the Capacitor would have been pure then the P.F would have been Cos90 = 0 but because of some resistive component it will no more be zero rather it will be something close to zero like 0.001.CosØ = Cos(90-δ) = SinδAs is angle δ is very small, hence Sinδ ~ tanδ~δTherefore, dielectric loss = VICosØ = VISinδ
= VIcSinδ/Cosδ = VIctanδ
What is Dissipation Factor?Therefore, dielectric loss is proportional to tanδ.
That is why tanδ is often called Dissipation Factor too. For a good capacitor, obviously the value of tanδ should be very less as it will cause less dielectric loss.
What is the importance of Dissipation Factor?In Electrical Power System, insulator has a great
role to play. An ideal insulator behave like a pure capacitor having slight Capacitance and negligible Resistance.
Therefore, it is very important to measure the Dissipation factor to judge whether an Insulator is healthy or having impurities like moisture, dirt etc.
For healthy Insulator value of D.F should be very low. If the value of D.F comes to be high, there is a high chance of Dielectric Breakdown in such case.
In next, tutorial we will see how to measure D.F.