Voltage Regulation Using DeltaPWMInverter FedSeriesCompensator
Production and Control of High Voltage Regulation of Current.
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Transcript of Production and Control of High Voltage Regulation of Current.
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Production and Control of High VoltageRegulation of Current
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Transformer – An electromagnetic device thatchanges an alternating current from low voltage to high voltage or vice versa
Works on the principle of electromagneticmutual induction
The Three Types of Transformers
1) Step-Down
2) Step-Up
3) Autotransformer
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The Transformer Law – The emf induced in thesecondary coil is to the emf in the primary coilas the number of turns in the secondary coil is to the number of turns in the primary coil.
Stated as and equation:
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Current in a transformer – If the voltageincreases in the secondary, amperage (current)will decrease due to the law of conservationof energy
Stated as an equation:
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Types of Transformer Construction
Open Core Transformer
Closed Core Transformer
Air Core Transformer
Shell Transformer
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Transformer Power Loss
Transformers:95% efficientAll power loss due to heat loss
Three Forms of Power Loss:
1) Copper Loss- Caused by electrical resistance of wire- Decreased with larger diameter wire
2) Eddy Current Loss- Swirling currents in iron core- Produced by electromagnetic induction of windings- Reduced by laminated silicon plates
3) Hysteresis – Power loss caused by changing magnetic domains in AC core - Also reduced by laminated silicon plates
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Autotransformer (Variable Transformer)
•Purpose - A device used to control kVp • Varies input voltage to primary of step-up transformer• Works on principle of self-induction and therefore requires AC voltage
Components:1) Single winding acting as both primary and secondary2) Metal taps to adjust number of turns in secondary of autotransformer3) Iron core (increases back emf)
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Autotransformer Law
Works identical to the transformer law
Example: What is the voltage delivered to the primary of the step-up transformer ifthere is 120 volts in the primary of the autotransformer and 2 of 10 turns are tapped?
X = 2120 10
= 240 10x
= 24 V
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Control of Filament & Tube Current
X-Ray Tube Circuits:1) Filament Circuit – Carries current to heat the filament (typically 3-5 A, 10 – 12 V)
2) Tube Circuit – Current passing between the electrodes of the x-ray tube (stated in mA)
A small change in filament circuit produces a large change in tube current.
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Three Devices Used to Control Filament Current
1) Choke Coil • Works on self-induction• Requires AC• Consists of coil of wire and iron core• Can be used to control current and voltage drop
2) Rheostat• Variable resistor• Increases resistance to decrease current & voltage• Operates on AC or DC
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Three Devices Used to Control Filament Current
3) High Frequency Control – The use of high frequency generators (transformers) to control output.- Contains microprocessor feedback circuit for better control of kVp and mA
From high ripple to low ripple means lessvariation in voltage and mA
- More precise control of voltage and mA going to x-ray tube
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Operation of High Frequency Generatorand Feedback Circuit
1) Supplied with single or three phase power
2) AC is converted to high frequency DC wave by DC chopper
3) Inverter converts DC to high frequency AC in order to be used by transformer
4) High voltage from secondary of transformer is changed back to DC (rectified) and smoothed.
High Freq Inverter
DC Chopper
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Advantages of High Frequency Generators
1) Less ripple (less than 2%)
2) Better control of kVp and mA
3) Increased tube output
4) Shorter exposure times
5) Improved image consistency
6) Less space required
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Practice Problems
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Answers to Transformer Problems
1) 22 kVp , 100 mA
2) 5.5 kVp, 400 mA
3) 50 volts, 20 A
4) 100 windings, 1 A
5) 7,000 V (7 kVp), 30 A