High Voltage Generation are widely describe here with examples and suitable sketches. AlsoFor more details visit here.
HVAC Generation – High voltage generation
In addition this HVAC generator several identical units of transformer are use where high voltage winding of all units are being keep series. Advantages of this methods are nominal cooling is sufficient, transformers are light hence transportation and assembling is easy. Also Disadvantages of this method is expensive and require of more space.
This is a single High voltage transformer in which the secondary side is tune to the frequency of power supply. There are two types of resonant systems.
- Series resonant system
- Parallel resonant system
Also These are use to generate high frequency AC high voltage. Due to the absence of iron core these transformers are cheaper & smaller in size. It can give pure sine wave output voltage build up over a few cycles occur slowly and no damage due to switching surges. Uniform distribution of voltage happens across winding coils due to subdivision of coil stack into several units
HVDC Generation – High voltage generation
Rectifier circuits – High voltage generation
Using either half wave or full wave rectifier circuit with high voltage transformer, HVDC can be generate but used diodes must be high power and must have a PIV twice of peak of alternating voltage supply a capacitance is use for smoothing the voltage wave form.
Voltage multiplier circuits – High voltage generation
At first By using above method, we can obtain only equal voltage to peak value of the AC voltage can be produced. When higher HVDC need voltage, multiplier is use this implement as two type of circuits.
Electrostatic Generator – High voltage generation
Using principle of charge transfer HVDC is generated in isolate or insulating conductor vand de graeff generator and sames generator are the two types of HVDC making process which use this method
Also High Voltage Generation are widely describe here with examples and suitable sketches. Also For more details visit here.