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UPS Topologies and Multi-Module Configurations. IEEE IAS Section Atlanta GA November 17, 2008. Agenda. UPS Topologies Line Interactive UPS Delta Conversion UPS Double Conversion UPS Rotary UPS UPS Design Market Drivers UPS Components Multi-Module UPS Configurations.
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UPS Topologies and Multi-Module Configurations IEEE IAS Section Atlanta GA November 17, 2008
Agenda • UPS Topologies • Line Interactive UPS • Delta Conversion UPS • Double Conversion UPS • Rotary UPS • UPS Design Market Drivers • UPS Components • Multi-Module UPS Configurations
Critical Power System Critical Load Generation Power Quality Distribution TVSS UPS PDU Servers Static Switch ATS Paralleling Switchgear
UPS Topologies – Line Interactive • Line Interactive • Runs on AC power from Utility and switches to Inverter if Utility source power quality is not within predetermined tolerance. Provides some surge protection. • Benefits – very efficient due to minimizing inverter run time • Disadvantages – limited surge protection • Application – Single computer or single rack
Delta Conversion • This Line Interactive system carries the load by using both the utility line by means of a Line Conditioner (Course Regulation) and two converters (Actually two inverters for Fine Regulation & Battery Charger). • This topology can regulate the load voltage by manipulating the secondary winding of the series t-former using the Series Converter. • Advantages • System does not go on battery for voltage fluctuations. • System efficiency is higher in normal mode. • Disadvantages • The unit needs two inverters, less reliability. • It circulates more ripple current to the batteries. • If the utility frequency goes out of tolerance, the unit must go on batteries.
UPS Topologies – Double Conversion • Double Conversion • Rectifies AC power into DC and then converts the DC back to AC. Provides clean power, completely isolated from the Utility during normal operation. • Benefits – No interruption of Power; Protects load from Utility spikes and Surges • Disadvantages – Greater losses than Line Interactive design
UPS Design Key Market Drivers • Reliability – • The 5 “9’s” - 99.999% up time • Efficiency • EPA Influence • Green Grid • Server Technology • Voltage • Outage Ride Through
Efficiency • Line Interactive UPS ~98% efficient • Double Conversion ~ 92% to 94% efficient • Methods to improve UPS efficiency • Eliminate Input and Output Transformers • “ECO” mode -Line interactive mode of operation • Data Center Efficiency Trends • Eliminate PDU transformers • Electrical Distribution Voltages
Server Technology • Server Voltages • Today –120VAC - 240VAC • 600V or 480V distribution with PDU transformers • 400V distribution without PDU transformers • Future – 277 VAC? ; 480VAC? • Server Power Outage Ride Through • CEMBA Curve – Now the “ITIC” Curve • Key Factor for “ECO” mode.
UPS Components • Rectifiers • SCR or IGBT • SCR – 6 Pulse and 12 Pulse • Inverters • IGBT with PWM • Static Switch Module • Transformers • Input Transformer • Output Transformer • Filters • Input Harmonic Filters
Rectifiers • IGBT Rectifier – Clean Input • High power sinusoidal rectification – low harmonics, limited need for filters • SCR Rectifiers • 6 Pulse – ~30% THD without filters – 7% with 5th Harmonic Filter • <5% with 5th and 11th filter • 12 Pulse – reduces harmonics by using parallel rectifiers with a phase shift ahead of one rectifier – requires input transformer • Lower efficiency than 6 Pulse • Rectifiers can be programmed to sequentially ramp up
6 Pulse Current Input THD without filter THD with filter
Inverters • Converts DC power into AC using IGBTs and PWM • Several different methods to implement PWM
Static Switch Modules • Static Switch Module consists of breaker or contactor in series with back to back SCRs. • Static Switch modules can be continuous duty or momentary rated. Momentary rated Modules have a breaker or contactor in parallel. • Continuous duty is required for ECO mode operation.
Input Isolation Transformer Input Isolation Transformer – required for 12 Pulse Rectifier
UPS Output Transformer • Output Transformer • Isolates load from inverter • Provides greater protection to load during inverter failure • Transformer MTBF > IGBT MTBF
Input Filters • 5th Harmonic Cancellation • The filter is designed to cancel the current distortion that is most present on the 5th harmonic. • Power Factor Correction • The input filter also raises the input pf to approximately 0.93 with addition of capacitors. This will allow the generator to operate more efficiently delivering more real power
Multi-Module UPS Configurations • Paralleling UPS Modules • Capacity or Redundancy • Centralized Bypass • Distributed Bypass • Typical Parallel UPS Configurations • Isolated Redundant • Parallel Redundant • Distributed Redundant • System plus System
Parallel for Capacity • Multiple units = N • Not recommended for a N System (single system) • Frequently used for System + System (N+N) • MTBF impact • Parallel for capacity reduces MTBF value • Approximately half the MTBF of a single unit
Centralized Bypass Cabinet Distributed Bypass Configuration does not need this gear lineup
Parallel UPS Configurations Isolated Redundant Parallel Redundant Distributed Redundant System plus System
Contact Information: • Harry Handlin • GE Power Quality • Systems Engineer • P 205-789-7479 • E harry.handlin@ge.com