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Power density per rack: 

 

Low density: less than 6 kilowatts per rack 

 

Medium density: from 6 to 12 kilowatts per rack 

 

High density: more than12 kilowatts per rack 

 

Data center availability (Uptime Institute Tier Classifications) 

 

Tier I: single power path with non-redundant UPS (highest probable downtime) 

 

Tier II: single power path with redundant (N+1) UPS 

 

Tier III: dual power paths, each with redundant (N+1) UPS, one active and one passive 

 

Tier IV: dual power paths each with redundant, active UPSs that allow concurrent maintenance 

(lowest probable downtime) 

Each data center is unique in its requirements based on business needs. The only constant in data 
centers is change, and the best solution will involve components that allow data centers to change 

and grow easily. For example, adding one or two racks in today’s high-density blade systems can 

add significantly to the power infrastructure load. Therefore, it is essential that data centers be 

adaptable to change. 
Modular systems allow customers to use a flexible “pay as you grow” strategy and address the issues 

of adaptability. Three-phase modular systems offer flexibility and cost-effective power distribution. 

Why three-phase power? 

As power requirements for high density compute systems increase, the benefits of distributing three-

phase power to individual racks become more significant. Strictly speaking, IT equipment (ITE) does 

not use three-phase power

1

—the benefits are in its distribution. These benefits include easier load 

balancing for improved efficiency, cable reduction for simplicity, and larger power rating capability 

and expandability. 

With single-phase power, the voltage across the hot and neutral conductors can be anywhere 

between its peak (maximum) and zero at any given time, and electrical conductors must be large to 
meet high amperage requirements. Three-phase power uses four discrete conductors (three hot and 

one neutral) handling three cycles that are 120 degrees out of phase (Figure 3). The more constant 

voltage across the three hot conductors results in smoother current flow and allows the use of smaller-

gauge conductors to distribute the same amount of AC power. 

 

Figure 3

. Comparison of single- and three-phase AC voltage waveforms  

 

Single-phase AC

1 hot, 1 neutral

 

 

 

Three-phase AC

3 hot, 1 neutral

0 V

 

 
The load balancing and increased power handling capabilities of three-phase AC distribution can 

result in more efficient and economical power distribution. The key components of three-phase power 

distribution include the UPS, the PDR, and distribution cables.  

                                                 

1

 Some HP BladeSystem blade and power enclosures connect directly to three-phase power and internally 

distribute split-phase or single-phase power to the power supply units

4

 

Содержание 204451-002 - UPS T2200 XR

Страница 1: ...PS load considerations 5 UPS topologies single conversion versus double conversion 6 HP solution high efficiency three phase UPSs 7 Three phase power distribution technology 8 Load balancing and monit...

Страница 2: ...al load properly with facility power to ensure safe and cost efficient operation Power distribution in data centers The typical data center uses power that originates from the utility power grid and i...

Страница 3: ...tery power until utility power is restored to within the accepted operating range or until the building generator can produce the required power whichever comes first Once UPS input power resumes eith...

Страница 4: ...fits of distributing three phase power to individual racks become more significant Strictly speaking IT equipment ITE does not use three phase power1 the benefits are in its distribution These benefit...

Страница 5: ...erated by most power supply units is typically within the 47 to 64 Hz range to accommodate worldwide applications UPS must maintain output frequency within the acceptable range Power factor correction...

Страница 6: ...gure 4B includes a rectifier In normal operation the rectifier processes the AC input voltage and routes the DC to the inverter that produces the output In online operation the batteries provide the i...

Страница 7: ...t that meets load requirements When AC input power is absent the system goes into battery mode Figure 5 HP RP12000 3 UPS Figure 6 DCOD topology used in HP three phase UPSs One characteristic of the DC...

Страница 8: ...o 85 percent efficiency at the same loading Three phase power distribution technology The benefits of distributing three phase power to individual racks become significant for high density installatio...

Страница 9: ...planning Racks receiving two AC buses will require power distribution units PDUs to be installed in pairs to achieve a balance of equipment loading With three phase distribution each equipment rack re...

Страница 10: ...ferent levels of load monitoring Circuit monitoring panel provides local display of current loading at the distribution panel level Enhanced monitoring provides local display of current demand voltage...

Страница 11: ...60 kilowatts through a PD rack and power distribution cables to a high density system of four 15 kW ITE racks In this example the ITE racks use conventional air cooling as supplied through plenums in...

Страница 12: ...ts of power distributed through the HP PDR In this example the HP Modular Cooling System MCS is used to provide chilled water forced air cooling for the IT equipment The UPSs and PDR use conventional...

Страница 13: ...T equipment and power distribution products from different sources to build a complete datacenter There were always concerns of how easily efficiently and reliably components from different vendors wo...

Страница 14: ...er white papers http h18004 www1 hp com products servers technology whit epapers datacenter html Call to action Send comments about this paper to TechCom HP com 2007 Hewlett Packard Development Compan...

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