Ppt Upac With Pi
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Transcript of Ppt Upac With Pi
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POWER QUALITY IMPROVEMENT BY POWER QUALITY IMPROVEMENT BY UNIFIED POWER QUALITY CONDITIONERUNIFIED POWER QUALITY CONDITIONER
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INTROUCTIONINTROUCTION
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• VOLTAGE QUALITY
voltage quality is concerned with deviations of the voltage from the ideal.
the ideal voltage is a single frequency sine wave of constant frequency
and constant magnitude.
• CURRENT QUALITY current quality is concerned with deviations of the current from
the ideal. the ideal current is again a single frequency sine wave of
constant . frequency and constant magnitude.
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POWER QUALITY
it is the combination of voltage quality and current quality.
Power quality is the concept of powering and grounding sensitive in a
matter that is suitable to the operation of that equipment.
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POWER QUALITY ISSUESPOWER QUALITY ISSUES
SYSTEM SYSTEM » » LOADLOAD
• Voltage sag/swellVoltage sag/swell
• Voltage unbalanceVoltage unbalance
• Voltage distortionVoltage distortion
• Voltage interruptionVoltage interruption
• Voltage oscillationsVoltage oscillations
LOAD LOAD » SYSTEM» SYSTEM
• Current harmonicsCurrent harmonics
• Reactive currentReactive current
• Current un balanceCurrent un balance
• Voltage notchingVoltage notching
• Voltage flickerVoltage flicker
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Harmonics Harmonics are associated with steady-state waveform distortion
of currents and voltagesHarmonics are components that make up a waveform where
each component has a is normally applied to waveform components that have frequencies other than the fundamental
frequency. For a 50 Hz or 60Hz system the fundamental frequency is 50HZ or 60Hz. A waveform that contains any components other than the fundamental frequency is non-
sinusoidal and considered to be distorted.
Nonlinear loads draw currents that are non-sinusoidal and thus create voltage drops in distribution conductors that are non-sinusoidal. Typical nonlinear loads include rectifiers, variable
speed drives, and any other loads based on solid-state conversion. Transformers and reactors may also become nonlinear elements in a power system during overvoltage
conditions. Harmonics create many concerns for utilities and customers alike. Typical phenomena include neutral circuit overloading in three phase circuits, motor and transformer
overheating, metering inaccuracies and control system malfunctions.
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OBJECTIVESOBJECTIVES
Classification of active power filtersClassification of active power filters
based on converter typebased on converter type
based on topologybased on topology
base on number of phasesbase on number of phases
Objective of UPQCObjective of UPQC
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OUTLINEOUTLINE
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LITERATURE SURVEYLITERATURE SURVEY
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IEEE 519 Voltage Limits
GENERAL THEORY OF ACTIVE POWER FILTERSGENERAL THEORY OF ACTIVE POWER FILTERS
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IEEE 519 Voltage LimitsIEEE 519 Voltage Limits
Bus Voltage MinimumIndividualHarmonic
Components (%)
MaximumTHD (%)
69 kV and below 3 5
115 kV to 161 kV
1.5 2.5
Above 161 kV 1 1.5
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IEEE 519 Current IEEE 519 Current LimitsLimits
SCR=Isc/Il h<11 11 to 17 17 to 23 23 to 35 35<h THD
<20 4.0 2.0 1.5 0.6 0.3 5.0
20 - 50 7.0 3.5 2.5 1.0 0.5 8.0
50 -100 10.0 4.5 4.0 1.5 0.7 12.0
100 - 1000 12.0 5.5 5.0 2.0 1.0 15.0
>1000 15.0 7.0 6.0 2.5 1.4 20.0
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Classification of ACTIVE POWER FILTERSClassification of ACTIVE POWER FILTERS
based on converter typebased on converter type
• Current Source Inverter (CSI) Current Source Inverter (CSI) Active Power Filter Active Power Filter
• Voltage Source Inverter (VSI) Voltage Source Inverter (VSI) Active Power Filter Active Power Filter
Voltage Source
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Fig 3.2 Voltage fed type AF
FIG.1 FIG.1 Current fed type AF Fig .2 Voltage fed type AFCurrent fed type AF Fig .2 Voltage fed type AF
Current fed type AF
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Topology based ClassificationTopology based Classification
• Shunt type AF Shunt type AF
• Series type AFSeries type AF
• UPQCUPQC
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Fig 3.3 Shunt-type AF
Fig.3 Shunt-type AF Fig .4 Series-type AF Fig.3 Shunt-type AF Fig .4 Series-type AF
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Fig .6 Unified Power Quality ConditionerFig .6 Unified Power Quality Conditioner
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Supply-System-Based ClassificationSupply-System-Based Classification
• 1)1) Two-Wire AF’s:Two-Wire AF’s:
• 2) 2) Three-Wire AF’s:Three-Wire AF’s:
• 3) Four-Wire AF’s:3) Four-Wire AF’s:Three-Wire AF’s 1) Three-Wire AF’s:
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Compensated Variable Based ClassificationCompensated Variable Based Classification
• (1) Harmonic Compensation(1) Harmonic Compensation
• (2) Multiple Compensation(2) Multiple Compensation
· · Harmonic currents with Reactive power compensation.Harmonic currents with Reactive power compensation.
· Harmonic voltages with Reactive power compensation.· Harmonic voltages with Reactive power compensation.
· Harmonic currents and voltages.· Harmonic currents and voltages.
· Harmonic currents and voltages with reactive-power · Harmonic currents and voltages with reactive-power compensationcompensation..
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Voltage Type Vs Current Type APF’sVoltage Type Vs Current Type APF’s
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Operation of Three Phase Active Power FiltersOperation of Three Phase Active Power Filters
Fig.7 Configuration of the three phase, three wire Active filtering system.Fig.7 Configuration of the three phase, three wire Active filtering system.
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Fig 3.8 Control block of Sample and Hold circuit's harmonic reference template
Fig 3.8 Control block of Sample and Hold circuit's harmonic reference template
Fig 3.8 Control block of Sample and Hold circuit's harmonic reference template
Sample and Hold circuit’s method for harmonic reference templateSample and Hold circuit’s method for harmonic reference template
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Fig 3.9 Method used to capture IFig 3.9 Method used to capture IPP..
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Topology based Classification Topology based Classification 2)
COMPARISION OF VARIOUS CONTROL COMPARISION OF VARIOUS CONTROL STRATAGIES FOR APF’S AND DESIGN STRATAGIES FOR APF’S AND DESIGN CHARACTERISTICS OF THE PWM CHARACTERISTICS OF THE PWM MODULATORMODULATOR
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Fig 3.9 Method used to capture IP.Fig 3.9 Method used to capture IP.
IntroductionIntroduction
Various modulation methods for single phase Various modulation methods for single phase
systemsystem
• Error Saw tooth ControlError Saw tooth Control
• Hysteresis controlHysteresis control
• Sampled error controlSampled error control
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Error Saw tooth ControlError Saw tooth Control
Fig 4.1 Block diagram of error saw tooth control.Fig 4.1 Block diagram of error saw tooth control.
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Hysteresis controlHysteresis control
Fig 4.2 Hysteresis control operationFig 4.2 Hysteresis control operation
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Various modulation methods for Various modulation methods for three-phase systemthree-phase system
Periodic Integral Control Periodic Integral Control
Three Phase Hysteresis ControlThree Phase Hysteresis Control
Three Phase Sampled Error Three Phase Sampled Error ControlControl
Three Phase Hysteresis Control Three Phase Hysteresis Control