Designing data center electrical distribution systems

Designing efficient and reliable data center electrical systems requires looking through the eyes of the electrical engineer—and the owner.

09/17/2014


This article has been peer-reviewed.Learning objectives

  • Understand the preliminary considerations of designing data center electrical distribution systems.
  • Know how to design efficient data centers that can also accommodate growth.
  • Identify the codes and standards that apply to designing data center electrical distribution systems. 

Figure 1: Increasing demand for cloud services is putting a strain on server capacity. This photo shows data center servers while they are being configured and wired. All graphics courtesy: Jacobs EngineeringData centers are among the hottest developments in the technology world. The growing needs of the Internet of Things have forced the biggest players in the computing world to spend billions of dollars on new multi-megawatt data centers. This boom in data center construction is largely fueled by the growing use of cloud services, which has put a strain on server capacity (see Figure 1). Additionally, data centers are considered mission critical when their operation is of importance to organizations’ economic or functional needs. Even a disruption of a few seconds in the operation of certain types of mission critical data centers could cost millions of dollars.

This article explores data center design through the eyes of both the owner and the electrical engineer. It also discusses the key components of data centers and touches on the codes and standards that apply to data centers and their components.

Preliminary considerations

Data centers, many having servers as their main components, need electrical power to survive. It is, therefore, only natural that any talk about building a data center should begin with figuring out the electrical needs and how to satisfy those needs.

Capacity: Before deciding anything else, the owner must decide the capacity of the data center (in megawatts). In previous planning efforts, it was common to use W/sq ft. However, today it is more common to discuss kW per rack, which may vary from 5 to 60 kW. This power concentration per rack can also drive cooling system type and capacity, which must be planned for in the capacity. The owner also needs to consider future capacity.

Another big decision is to determine the level of redundancy. Reliability is very important for data centers, and disruptions are costly. But the cost of building a data center increases significantly with higher reliability. Therefore, the owner should decide where to draw the line, and determine how much risk is acceptable.

Auxiliary power:


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