HP DL360 Power basics for IT professionals - Page 15

unity (~1), which allows smaller circuits to be used. Using energy-efficient PFC devices, including UPSs, can lead to significant cost savings for data centers where the incoming feeds are measured in megawatts. As a standard feature, power supplies for ProLiant servers all contain circuitry to correct the power factor (that is, to bring input current and voltage into phase). Leakage current Earth leakage current is created by EMI filter capacitors located between the primary circuits and the primary grounding (earthing)2 conductor and subsequently the chassis of the computer. The leakage current is measured from the accessible parts of the equipment back to the phase and neutral conductors. Under normal operating conditions, leakage current does not create a hazard. Because the current is additive when several pieces of equipment are connected together to the same source, for example, a UPS and a PDU, the level of leakage current can reach a hazardous potential quickly. If the primary ground conductor becomes open for any reason, the leakage current and all of its potential will become available on any conductive (metal) surface of the equipment. If an individual comes in contact with the chassis of the equipment and ground, electric shock can occur. Because of the potential high ground-leakage currents associated with multiple servers connected to the same power source, a reliable grounded connection is essential before applying power to the system. HP recommends using a PDU that is either permanently wired to the building's branch circuit or that features a non-detachable cord that is wired to an industrial style plug. NEMA locking-style plugs or those complying with IEC 60309 are considered suitable for this purpose. Grounding There are three different types of grounding: (1) providing a personnel ground to avoid shock hazard; (2) providing a dedicated ground path for clearing a fault on a circuit; and (3) over-voltage or lightning protection. The first type of grounding (providing a low-impedance path to ground between exposed metal parts and personnel) is a requirement for personnel safety. This type of grounding uses the ground wire that is generally seen at a power panel, a motor, an instrument cabinet, or a server case. This ground wire may also be attached to the inside of a cabinet and is strictly for personnel protection. The second type of grounding is for maintaining a low-impedance path from the electrical user to the voltage source. In the event of a fault, the over-current protection device clears the fault immediately to prevent equipment damage or other problems. This type of grounding uses the ground wire inside the conductor installed from the circuit breaker to the electrical device and is only seen when the termination box is opened. This conductor is the direct path from the user to the source. In the event of a ground fault, it facilitates tripping the circuit breaker. The third type of grounding is for over-voltage or lightning protection. This type of grounding is seen on the tops of commercial buildings and industrial facilities to protect against direct and indirect lightning strikes. A grounding conductor is installed from the top of the building down to ground. It is normally called a downcomer. This is a direct connection from the lightning rods (air terminals) on the top of the building to earth to avoid potential rise on the facility ground system. In the industrial world another type of ground, called the instrument ground, is used strictly for grounding sensitive electronic equipment and components. The instrument ground must still be connected to the plant ground or safety ground; however, it is typically a distance away from the plant ground to avoid stray ground currents, indirect lightning strikes, or potential differences in ground. Figure 13 shows the different types of grounding. 2 The European community uses the term earthing for grounding. In the rest of this discussion the terms grounding, ground, and grounded will be used in place of the earthing forms. 15