GENERATION OF HIGH VOLTAGES | AC AND DC VOLTAGE GENERATION

HVDC is used for testing HVAC cables of long lengths as these have very large capacitance and would  require very large values of currents if tested on HVAC voltages. Even though D.C. tests on A.C cables is convenient and economical, these suffer from the fact that the stress distribution within the insulating material is different from the normal operating condition.

In industry it is being used for  electrostatic precipitation of ashing in thermal power plants, electrostatic painting, cement industry, communication systems etc. HVDC is also being used extensively in physics for particle acceleration  and in medical equipment's (X-Rays).

The most efficient method of generating high D.C. voltages is through the process of rectification employing voltage multiplier circuits. Electrostatic generators have also been used for generating

high D.C. voltages.

According to IEEE standards 4-1978, the value of a direct test voltage is defined by its arithmetic mean value   and is expressed mathematically as 

where T  is the  time period  of the voltage wave having a frequency f = 1/ T.  Test voltages generated using rectifiers are never constant in magnitude. These deviate from the mean value periodically and this  deviation is known as  ripple . The magnitude of the ripple voltage denoted by  δV  is defined as half the difference between the maximum and minimum values of voltage  i.e.,

and ripple factor is defined as the ratio of ripple magnitude to the mean value  V d

  i.e.,   δV/V d .  The  test voltages should not have ripple factor more than 5% or as specified in a specific standard for a particu-lar equipment as the requirement on voltage shape may differ for different applications.

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WHAT IS THE DIFFERENCE BETWEEN GENERATOR AND ALTERNATOR

Generator and Alternator.

Generator convert mechanical energy into electrical energy, Alternator also converts mechanical energy into electrical energy but there is the difference between both.

Generator and alternator are functionally same but the only difference in construction.  Generator persists stationary magnetic field and rotating conductor which rolls on the armature with slip rings and brushes.

Hence it converts the induced emf into dc current for external load whereas an alternator has a stationary armature and rotating magnetic field for high voltage and for low voltage it has vice versa.

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WHAT IS THE FREQUENCY OF DC VOLTAGE.

What is the frequency of DC voltage?
   > Due to the graphically straight line, DC voltage has 'NO' frequency but if this voltage is pure DC.
      Unpure frequency has 1.2Hz frequency.

What we do to do DC voltage pure?
   >We use Capacitor for filter the dc voltages for pure dc voltage with 'NO' frequency.

Your answer will be below. Comment below what you think about this.

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