Enterprise Data Center Design and Methodology
The plans for the data center should include a well-designed power and grounding system to maintain appropriate conditions and avoid unplanned power outages. Numerous factors can disrupt , degrade, or destroy electronic systems. High-frequency, high amplitude noise, high ground currents, low power, surges and sags in voltage, harmonic distortion, and other factors will affect the proper functioning of equipment. It is essential that power conditioning technology be used to protect the data center equipment. The following table shows a chart that was published by the U.S. Government as a Federal Information Processing Standard or FIPS. The source is FIPS PUB 94, "Guideline On Electrical Power for ADP Installations." The U. S. Government withdrew this standard July 29, 1997 because these tolerances or tighter tolerances had been adopted as industry standards. It is presented here only as a reference. Table 7-1. FIPS PUB 94 Tolerances Chart
Power Conditioning Technology
When the power source does not meet the equipment requirements, additional hardware might be required for power conditioning. These power conditioning systems can be separate or can be integrated into UPS equipment. The use of power conditioning systems is much like the use of UPS systems. A "power sag" or "brownout" is an event that can bring the delivery of power to under 80 percent of nominal power for a brief duration, usually two seconds or less, sometimes even in the milliseconds range. You can think of a power conditioning system as a three-to-five second UPS that will maintain the power flow through a brownout. Harmonic Content
Harmonics problems can be caused by the interaction of data center equipment with the power loads or by switching power supplies. Harmonic distortion, load imbalance, high neutral current, and low power factor can result in decreases in equipment efficiency and reliability. Eliminating harmonics problems is difficult, because the computer hardware contributes to them, and any changes in the room load or configuration to fix the problem can create new problems. Sun Microsystems equipment has been designed to address the problems of harmonic distortion and is generally compatible with similar modern equipment. Equipment that does not have the advantages of modern harmonic-correction features should be isolated on separate circuits. Voltage Spikes
Voltage spikes are rises in the voltage caused most often within the power distribution circuits by components turning on and off, such as the cycling of compressor motors. Large spikes can interfere with energy transfer, or the associated electrical noise can cause signal corruption. A UPS and/or filtering system will usually stop most spikes originating upstream of the UPS. If a UPS will not be installed, some other form of regulation or surge suppression should be designed into the system. Lightning Protection
The potentially damaging effects of lightning on computer systems can be direct or indirect. It might be on the utility power feed, directly on the equipment, or through high-frequency electromagnetic interference or surge currents. Lightning surges cannot be stopped , but they can be diverted. The plans for the data center should be reviewed to identify any paths for surge entry, and surge arrestors that provide a path to ground should be included to provide protection against lightning damage. Protection should be placed on both the primary and secondary sides of the service transformer. Lightning protection systems should be designed, installed, and maintained in accordance with NFPA 780 (1997 edition), Standard for the Installation of Lightning Protection Systems , or any superseding local or national code. Emergency Power Control
NFPA 70 and NFPA 75 require a single point of disconnect for all electronic systems in the data center, at each point of entry. Multiple disconnects are also acceptable, but in either case, the switches must be unobstructed and clearly marked , as shown in the following figure. Figure 7-4. Emergency Power Disconnect and Manual Fire Alarm Pull Station
Protective covers can be placed over the buttons to avoid accidental contact, but access cannot be locked out. The switch, or switches, should disconnect power to all computer systems, HVAC, UPS, and batteries. If the UPS is located within the data center, the disconnect should stop power to the unit. If the UPS is located remotely, the disconnect should stop the supply from the unit into the room. Though not required by code, it is recommended that all power sources in the room be controlled by the disconnect to provide the highest degree of safety to personnel and equipment. |