Ups Technical Overwiew
Transcript of Ups Technical Overwiew
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
UPS Theory & Operation
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
STAND-BY LINE UPS
◗ Utility power is feeding the load◗ Disconnect switch (solid state or electro-mechanical)◗ Charger is on, keeping the battery under charge◗ Inverter is off◗ No voltage or frequency regulation◗ 4 to 10 msec transfer time (with break on the output)
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
LINE-INTERACTIVE UPS
◗ Utility power is feeding the load, through energy storage device◗ Typical storage device: Ferroresonant or Motor Generator◗ Disconnect switch (solid state or electro-mechanical)◗ Charger is on, keeping the battery under charge◗ Inverter is off◗ Voltage regulation◗ 4 to 10 msec transfer time (no break on the output)
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
On-Line UPS
◗ Double Conversion (AC to DC, DC to AC)
◗ IGBT PWM Inverters◗ 6 or 12 Pulse SCR Rectifier◗ Continuous Rated Static Bypass◗ Maintenance Bypass◗ Input Harmonic Filter
Fuse
INPUT C.B.
Fuse
MAINTENANCE BYPASS
Battery Breaker
Static Bypass
Static Switch
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
Mitigating UPS Induced Harmonics
IGBT Rectifier
6 Pulse Rectifier
6 Pulse Rectifier w/ filter
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
On-Line Static UPS
◗ Double Conversion (AC to DC, DC to AC)
◗ IGBT PWM Inverters◗ 6 or 12 Pulse SCR Rectifier
◗ Continuous Rated Static Bypass◗ Maintenance Bypass◗ Input Harmonic Filter
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
UPS Rectifier
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
Rectifier
◗ Operation> Converts AC/DC> Charges Battery
◗ Types> SCR
• 6 pulse• 12 pulse
> IGBT
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
Rectifier/Charger Design (6 Pulse Rectifier )
◗ 6 SCR’s, Fully Controlled Rectification◗ THDI is 27% - 30%, with no Filter◗ Input Filter Reduces THDI to 5 - 7% (Improves PF to 0.95
Lagging)
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
Rectifier/Charger Design (12 Pulse Rectifier)
◗ 2 x 6 SCR’s, Fully Controlled Rectification ◗ THDI is 16%, with no Filter◗ Input Filter Reduces THDI to 5%
> Filter Requirement (Capacitors) Substantially Smaller Due to Reduced Initial THDI
◗ Isolation Transformer Standard
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
Rectifier/Charger Design
• IGBT Front End
– Power Factor Corrected Input
– Sensitive Transistors Susceptible to Utility Surges (SCR’s Tolerate to High Surges without Failure)
– Ideal at 208 V With Input Transformer, Questionable at 480 VAC
– Efficiency is also a Major Penalty – Operating Cost Typically Double
– Suitable for Small, not Very Large UPS
• SCR and IGBT Comparison
SCR UPS w/Filters IGBT Rectifier UPS
INPUT POWERFACTOR
Varies With Load 0.95 – 0.98 Lagging
THDI 5% - 10% 4% - 7%Efficiency 94% 89%
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
UPS Input
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
UPS Input Components
◗ Transformer> Provides voltage steps> Provides galvanic isolation> Required for 12-pulse rectifier
◗ Input Circuit Breaker> Disconnects UPS input> Provides Short Circuit Rating> Installed with Shunt Trip
◗ Input Fuses> Protects Rectifier
◗ Input Filter> Reduces Reflected Harmonics> Improves Power Factor
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
UPS Induced Harmonics
IGBT Rectifier
6 Pulse Rectifier
6 Pulse Rectifier w/ filter
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
UPS Input Filter Technology (Trap Filter)
◗ Tuned to 5th or 7th Harmonics on 6 Pulse
◗ Tuned to 11th and 13th on 12 Pulse
◗ Reduced THDI to 5 - 7% @ 100% Load
◗ Constant KVAR as % Load changes
◗ Leading PF on Lightly Loaded UPS
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
◗ Compensates for Leading Power Factor
◗ No Further Reduction in THDI
◗ No Mechanical Component
◗ Lower PF at Full Load
UPS Input Filter Technology(Shunt Inductor Filter)
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
UPS Input Filter Technology(Load Variable Filter)
UPS Load>30%
Filter On
Filter Off
UPS Load>30%
◗ Filter Disengaged at Light UPS Loads to (Via Mechanical Contactor)
◗ Filter Engaged as Load Increased
◗ Limits Source kVAR Load
◗ Potential Switching Surges
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
UPS Input Filter Technology(Low kVAR Filter)
◗Uses Inductors and Reduced Capacitance to Filter THDI
◗Limits Input THDI to <7%, Maintaining Acceptable kVAR
◗100% Passive / Solid State (no Contactors / Notching)
◗ Maintains Good Efficiency
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
Limiting UPS Induced Distortion (THDI)
◗ Rectifier Section Design:> SCR or IGBT?> 6 or 12 Pulse?
◗ Properly Designed and Applied Input Filtering:> Active, Passive or Switched?> Proportionate to UPS Load> Within Generator Reactive Capability
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
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0.951.000.95 0.90.9 0.80.8POWER FACTOR
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STATOR DAMAGE
ROTORDAMAGE
POLE SLIPINSTABILITY
SAFE OPERATINGAREA
ENGINEOVERLOAD
SYNCHRONOUS REACTANCEXd = 3.0, (300%)
Alternator Reactive Capability
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
UPS DC System
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
DC System Components
◗ DC Bus> Product dependent voltage
◗ DC Capacitors> Mitigates AC ripple on the DC
Bus◗ Battery
> Wet cell> Sealed
◗ Battery Disconnect> Provides Isolation of battery from
DC bus> Provides Automatic trip function
via UVR or shunt trip> Wiring Configurations
• end string• mid string
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
End String Disconnect
•Full pole to pole DC voltage•Standard, unless specified otherwise•Less expensive to install versus mid string•Rack layout not necessarily important
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
Mid String Disconnect
•Limits pole-to-pole voltage to less than 250VDC•More expensive to install versus end string•Rack layout considerations important
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
UPS Inverter
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
Inverter
◗ Operation> Converts DC/AC
◗ Types> IGBT> SCR
◗ Topologies> Varies depending on
manufacturer
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
Evolution & Paradigm Shiftto IGBT and HF PWM
SCR Bipolar
HF PWMw/ DPQ
IGBTSemiconductor types
Inverter Topologies
6 Step 12 Step LF PW M HF PW M
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
Digital Power Quality Management System
Creates a “perfect sinewave” (3.5% max THD) output under all conditionsEliminates harmonics and stabilizes voltage for “computer grade power”.
Inverter
Output
Compares to “perfect” sine wave and correct
Adjusts waveform to generate distortion free
“perfect” output
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
Digital Power Quality Envelope
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
High Efficiency even at lower loads means huge cost savings
Most manufacturers do not publish efficiencies under 50% where most UPSs operateMGE maintains high efficiency at lower loads resulting in substantial cost savings
Certified by an independent agency
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
Output Performance
A
B
C
◗ Dead short across the output bus will not damage the UPS ◗ Wiring changes on the critical bus are common today◗ Other UPS will suffer fatally from output shorts
Fault Tolerant Circuitry
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
UPS Output
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
UPS Output Components
◗ Output Capacitors> Smooths output voltage
waveform
◗ Output Fuses> Fault protection
◗ Output Disconnect> Isolates inverter from
load> Types
• Contactor• Circuit Breaker• Static Switch
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
Static Bypass
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
Static Bypass Components
◗ Backfeed protective device> Required by UL
◗ Static Switch> provides “uninterrupted transfer” to utility from inverter in less
then 1/4 cycle> provides voltage reference for inverter > Types
• momentary• continuous
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
Static Switch
ContinuousMomentary
Advantages:•Less expensive•Smaller footprint
Disadvantages•Less Reliability
Advantages:•Higher Reliability•MGE Standard
Disadvantages•More expensive•Larger footprint
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
System Availability“Zero Down Time” solutions
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
Power Systems Design Factors
◗ Reliability• how solid is the guarantee of 99.9999% uptime;
reliability is a function of the quality of equipment and the configuration of the power system
◗ Availability• will the system operate as required when needed
(MTBF – MTTR)
◗ Maintainability• can you service the system without interrupting /
compromising power quality
◗ Expandability• how easy will it be to add to the system
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
Designing for ReliabilityReliability Factors
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
UPS System Configurations
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
MGE Shared Parallel TechnologyLimiting single points of failure to maximize reliability
No system level paralleling controls
No system level output breaker
Each UPS has 100% independent paralleling controls
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
Parallel for Capacity
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
Parallel for Redundancy
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
Integrated ParallelParallel for redundancy with no system static
switch cabinet
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
Parallel for Capacity or Redundancy
◗ Up to four modules for parallel or capacity
◗ No SSC required!◗ Expand on an as needed
basis.
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
Isolated Redundant
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
Benefits of Isolated Redundant
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
Distributed Redundant
PMM/STS
CBS
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R
Distributed Redundant Advantages
EXPA N D ABILITY!
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T H E U N I N T E R R U P T I B L E P O W E R P R O V I D E R