Power Distribution Architecture of a Data Center

May 10, 2012 By

A traditional power distribution architecture which was developed in the late 70’s is still being used by some of the existing data centers. In this basic system, the main power of the data center is distributed through ‘power distribution units (PDU, with 50kW- 500kW ratings)’. These units have large power transformers which provide voltage conditioning or voltage conversion. The power distribution units are in turn distributed to a quantity of branch circuits (with 1.5kW to 15kW ratings) to the IT equipment, where each IT enclosure uses one or more branches. The wiring to the IT enclosures is usually located beneath the raised floor.

However, when the traditional power distribution system was created, the data centers consisted of a small number of large IT devices which were hardly changed except during the scheduled stoppage of a major IT upgrade. The data centers in the present day have different characteristics that have challenged the traditional architecture, like:
• Constant addition of new power circuits due to the varying power requirements, without disturbing the nearby existing loads.
• With increase in per-rack power density, requirement for multiple branch circuits per cabinet is increased.
• There is no mechanism yet to monitor the circuit overloading above 50% in the commonly implemented dual power path systems.
• Data centers may contain thousands of plug-in devices with separate power cords, instead of a few large IT devices which require several more power receptacles.
• It is very difficult to determine impending overload conditions and to size branch circuits, when a large number of IT devices are connected to a branch circuit breaker

The characteristics of an ideal power distribution system would be:
• No under-floor cables
• Maintenance of capacity and redundancy on every circuit
• Addition or alteration of new circuits can be performed safely on a live system
• All circuits are monitored for power
• Should be able to deploy IT zones and associated power distribution over time
• Excess copper is not installed which is not necessary
• High Efficiency

In accordance with the varying needs of the modern data center, the power distribution systems have been evolving, and over time, various improvements have been introduced to these systems, a few notable ones being:
• Flexible power cords and overhead cable tray
• Less power distribution units of transformers
• Branch circuit metering for power
• High power and pluggable rack power distribution units
• Software for power capacity management

In order to suit a high density data center, the power distribution system should include all the above mentioned elements in its architecture.

The power distribution system has two steps: For larger data centers the main critical bus power from the uninterruptible power supply (UPS) is distributed to IT rows using one or more overhead busways. The busways are installed initially which traverse the entire IT rack layout. When a group of racks is to be installed, a low-footprint modular PDU is installed at the same time and plugged

In place of the traditional circuit breaker panels possessing raw wire terminations, we have the modular PDU that contains a backplane into which pre-terminated shock-safe circuit breaker modules are installed. This varied arrangement results in elimination of on-site termination of wires, and also allows the face of the PDU to be much narrower.

There are no initial branch circuits installed in the modular PDU. The power connection from the PDU to the IT racks comprise of flexible cable which can be plugged into the front of the modular PDU onsite depending on requirement of each specific rack. The branch circuit cables to the IT enclosures are pre-terminated with breaker modules that plug into the shock-safe backplane of the modular PDU.

A few particular equipments like blade servers which require a dedicated branch circuit generally possess a single cable from the PDU carrying either one, two or three branch circuits which directly plugs into the blade server, without any additional rack PDU needed. In case of presence of mixed equipment in the rack, we have the rack PDUs which can provide receptacle and current ratings which are interchangeable.

We encounter situations where we have racks of very high density, or a small group of racks being isolated by shape of the room or other constraints, wherein one or more zones within the data center might require only a small number of branch circuits. In these cases, the full 24-branch circuit capability of the standard modular distribution system is not needed. To overcome this, the architecture includes a smaller version of the modular power distribution unit, which supports up to 6 branch circuits and consumes zero floor footprint are directly mounted into an IT rack. The status and energy monitoring capability of the larger floor unit in a 5U rack mount version is included in the PDU.

The circuits can be further simplified for smaller data centers of 200kW or below, where the modular PDU may be integrated directly with the UPS system into a compact arrangement that can be located in the IT room. The requirement for a main bus wiring and separate power room is eliminated in such a setup.

Constant monitoring of current and energy on every circuit in a power distribution system is required at all levels of hierarchy. Simple network management protocols (SNMP) are used for monitoring the system. Also there is Capacity management software which monitors every circuit in the system and enforces safety margins, identify available capacity and verify redundancy.

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Server Technology Offers Power Distribution Services

January 30, 2012 By

Cabinet power distribution units and power monitoring & measurement solutions for data centers and telecommunications

For over 25 years, Server Technology has been providing companies with trusted power management solutions. They improve uptime and energy efficiency while reducing carbon footprint and operating costs. Solutions that give you the critical information you need to run your operation better. Intelligent cabinet-level power distribution units (CDUs) that set the industry-standard for quality and functionality. Power monitoring, measurement and management solutions that give you the information needed to run your operation – better and smarter.

They offer services like:

  • The Total Solution for Data Center Power
  • PIPS (Per Inlet Power Sensing) to Replace RPP Monitoring
  • Alerts and Alarms
  • Device Level Measurement
  • Power Management
  • Data Center Power
  • Green Initiatives
  • Data Collection Management
  • 415V Solutions
  • Cisco Nexus 7000 Series
  • Wire-Free Power Monitoring

Website: Server Technologies

Address:

Headquarters: Reno, Nevada
1040 Sandhill Drive
Reno, NV 89521
(1) 800 835 1515 Toll Free

 

For more power management services, visit Data Center Talk.

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Data Center Power Distribution

November 20, 2011 By

Numerous data centers in the industry today predate the focus of the industry on technologies that are efficient. From the design through the installation and technology selection, uptime and initial cost were the focal points since energy availability was not a consideration and power was not a major expense. The environmental impact of the data center and concerns about costs associated with the consumption of power had not found its way into the corporate consciousness. In today’s economy energy is a major issue. In the year 2006, data centers in the US consumed about 61 billion kWh of electricity while fossil fuels in the US generated approximately 70 percent of the nation’s electricity. The consequences to the economy and the environment render some designs of legacy server rooms wasteful and irrelevant. A prime example is the architecture of the 480V-208V power distribution. The components PDU, UPS and server power supply are aged and lose around 40 percent of electricity that is incoming, during transformation and distribution. To defend it though, this approach of power distribution was designed with an envelope of minimal power in mind. It amplifies its inefficiencies in the context of installations of high density, where loads of racks can possibly eclipse 30kW.

Advanced AC Power Distribution

It is no longer affordable for a data center to lose 40 percent of incoming electricity. This is why experts are investigating new technologies of power distribution and data center systems. According to Green Grid the latest architectures achieve an overall efficiency of about 80 to 90 percent and there is only a 4 percent difference between the most efficient and the least. In addition, newer equipment has performance curves that are considerably superior at loads that are lighter since the equipment is steeper and better maintained across the curve of loading.

Common schemes of AC Distribution

  • 480-208V Power Distribution - the modern data center design of 480V-208V distribution is similar to its predecessor but it uses the highest components of efficiency available on today’s market. Depending on the load, the overall efficiency of this system is between 80-85 percent which is a major improvement over the design of the legacy computer room.
  • 600V-208V Power Distribution - this power distribution is common in Canada and has a close resemblance to the modern design of 480V-208V except that it has a higher voltage input in to the UPS. It has an overall efficiency of 80-85 percent.
  • 415V-240V Power Distribution- normally this design is used outside the US since most facilities in US have 480/277V and would therefore have to convert to 415V at the level of the UPS. This scheme has a highly efficient approach and achieves 85-90 percent of efficiency depending on the load.

Server Room DC Power Distribution

There has been a renewed interest in the last few years in distributing the power of Direct Current DC throughout the server room and the data center. There are numerous points such as power supplies and UPS, where the incoming power of AC can be converted into DC. There are losses during the process of each conversion which can be server depending with the equipment. Proponents view the power of DC as a means to reduce electrical losses and hence achieve a design that is more efficient.

Schemes of DC Power Distribution

  • 480Vac to 48Vdc Power Distribution - this power distribution design is commonly used in the deployment of telecommunications. Depending on the load, it can achieve an efficiency of 85-90 percent.
  • 480Vac-575Vdc-48Vdc Power Distribution - to minimize the cost and losses of distribution cabling, this power distribution design distributes power of about 575Vdc from the UPS. Like the majority of modern designs, it has an efficiency of between 80-85 percent depending with the load.
  • 480Vac-380Vdc Power Distribution - the design distributes about 380Vdc to the power supply of the server which in turn achieves greater efficiency and minimizes the costs of distribution cabling. It achieves an efficiency of 90 percent at 30-50 percent of its capacity but the overall efficiency decreases with increasing capacity. 380V has been examined widely in the industry. Some who have decided to run their data centers at 380Vdc have claimed that the power of DC is more dangerous than that of AC power so this raises safety concerns. Furthermore, it is difficult to find electricians who can hook up the 380Vdc. It is therefore safe to assume that most data professionals of a data center do not have a background in 380Vdc and this could also present a safety issue especially for those working with power components.

Conclusion

New technologies that will improve power distribution efficiency in server rooms are now available. The latest PDUs and UPS systems achieve efficiency that hits a percentage in the nineties and a number of power supplies of servers have reached and exceeded the ninetieth percentage mark. Nevertheless, these advanced technologies may be in severe contrast to equipment that is already inside a data center. For instance in 2008, Lawrence Berkley National Labs in a whitepaper estimated that a classic AC system in a recent data center would have a power supply that is around 73 percent efficient and UPS that has an efficiency of about 85 percent. If due to corporate protocol or tax incentives an organization refreshes its hardware every three or five years, they may take shipments of the newest server products that have power supplies which are highly efficient. Advanced power supplies have a visible impact on the overall efficiency of power distribution. Even so, it is unrealistic for an existing data center to make a comprehensive change to DC distribution. The industry must be able support the DC power distribution before it is viable for a fresh facility, particularly the 380Vdc design which is highly efficient. There are no server manufactures or products of rack power distribution that support the power of 380Vdc but a number of them are available at telecom voltage of 48Vdc. A green field data center is more likely to take full advantage of the newest architectures and product advances than an existing center which may face the risk of prolonged downtime costs and other complexities.

 

You can also keep up to date with current trends and technology by visiting Data Center Talk where we keep you informed on important changes as they occur.

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