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11 What Is Power Quality There can be completely different definitions for power quality, depending on one s frame of reference For example, a utility may define power quality as reliability and show statistics demonstrating that its system is 9998 percent reliable Criteria established by regulatory agencies are usually in this vein A manufacturer of load equipment may define power quality as those characteristics of the power supply that enable the equipment to work properly These characteristics can be very different for different criteria Power quality is ultimately a consumer-driven issue, and the end user s point of reference takes precedence Therefore, the following definition of a power quality problem is used in this book:
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Any power problem manifested in voltage, current, or frequency deviations that results in failure or misoperation of customer equipment
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There are many misunderstandings regarding the causes of power quality problems The charts in Fig 11 show the results of one survey conducted by the Georgia Power Company in which both utility personnel and customers were polled about what causes power quality problems While surveys of other market sectors might indicate different splits between the categories, these charts clearly illustrate one common theme that arises repeatedly in such surveys: The utility s and customer s perspectives are often much different While both tend to blame about two-thirds of the events on natural phenomena (eg, lightning), customers, much more frequently than utility personnel, think that the utility is at fault When there is a power problem with a piece of equipment, end users may be quick to complain to the utility of an outage or glitch that has caused the problem However, the utility records may indicate no abnormal events on the feed to the customer We recently investigated a case where the end-use equipment was knocked off line 30 times in 9 months, but there were only five operations on the utility substation breaker It must be realized that there are many events resulting in end-user problems that never show up in the utility statistics One example is capacitor switching, which is quite common and normal on the utility system, but can cause transient overvoltages that disrupt manufacturing machinery Another example is a momentary fault elsewhere in the system that causes the voltage to sag briefly at the location of the customer in question This might cause an adjustable-speed drive or a distributed generator to trip off, but the utility will have no indication that anything was amiss on the feeder unless it has a power quality monitor installed In addition to real power quality problems, there are also perceived power quality problems that may actually be related to hardware, soft-
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Downloaded from Digital Engineering Library @ McGraw-Hill (wwwdigitalengineeringlibrarycom) Copyright 2004 The McGraw-Hill Companies All rights reserved Any use is subject to the Terms of Use as given at the website
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Customer Perception Natural 60% Other 3% Neighbor 8%
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Customer 12% Utility 17%
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Utility 1%
Results of a survey on the causes of power quality problems (Courtesy of Georgia Power Co)
ware, or control system malfunctions Electronic components can degrade over time due to repeated transient voltages and eventually fail due to a relatively low magnitude event Thus, it is sometimes difficult to associate a failure with a specific cause It is becoming more common that designers of control software for microprocessor-based equipment have an incomplete knowledge of how power systems operate and do not anticipate all types of malfunction events Thus, a device can misbehave because of a deficiency in the embedded software This is particularly common with early versions of new computer-controlled
Downloaded from Digital Engineering Library @ McGraw-Hill (wwwdigitalengineeringlibrarycom) Copyright 2004 The McGraw-Hill Companies All rights reserved Any use is subject to the Terms of Use as given at the website
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