Lighting loads susceptibility to voltage sag
One of the common power qualities problems that are major concern in this study is called voltage sag. Voltage sag disturbances, or momentary decreases in voltage, are considered to be the most prominent power quality problem. Voltage sag is a short-term decrease in voltage lasting anywhere from mil...
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Universiti Malaysia Perlis
2009
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my.unimap-44802009-02-04T01:51:41Z Lighting loads susceptibility to voltage sag Ezly Azril Khalid Mohd. Rafi Adzman (Advisor) Voltage sag Power quality Electric power systems -- Analysis Electric power failures Lightning Electric power systems -- Protection One of the common power qualities problems that are major concern in this study is called voltage sag. Voltage sag disturbances, or momentary decreases in voltage, are considered to be the most prominent power quality problem. Voltage sag is a short-term decrease in voltage lasting anywhere from milliseconds up to a few seconds. It can cause malfunction, miss operation and less reliability of the equipment. There are many types of lighting loads that are being used nowadays in industrial and in residential such as fluorescent lamp, high intensity discharge such as metal halide and mercury vapor lamp and incandescent lamp. When voltage sag occurs, it can reduce the performance of those lamps such as the lamps needs time to stabilize for several minutes or the lamp fail to reignite after supply recovery thus it will effect on the economy progress where it make unattractive infrastructure for the investors. In this research, Schaffner Profline 2100 was used to generate voltage sag to the equipment under test (EUT) which is a lighting load. This report will describe about voltage sags and the effects of voltage sag on different type of lighting load and also mitigation method to overcome voltage sags thus protect utility and end user equipment from failing or miss-operating. From the experiment, there are four conclusion that been made based on the observation on the effect on the lamp, the relationship between the duration and the depth of sag, the sensitivity of equipment for voltage sag from the standard (IEC 61000-4-11/IEC 61000-4-34, SEMI F47 and CBEMA (ITI) Curve) and the current spike that occurs. Eventually, when voltage sag happened, a current spike occurs and the current are exceeding the rated current thus can damaging the equipment. 2009-02-04T01:51:41Z 2009-02-04T01:51:41Z 2008-03 Learning Object http://hdl.handle.net/123456789/4480 en Universiti Malaysia Perlis School of Electrical Systems Engineering |
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Voltage sag Power quality Electric power systems -- Analysis Electric power failures Lightning Electric power systems -- Protection |
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Voltage sag Power quality Electric power systems -- Analysis Electric power failures Lightning Electric power systems -- Protection Ezly Azril Khalid Lighting loads susceptibility to voltage sag |
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One of the common power qualities problems that are major concern in this study is called voltage sag. Voltage sag disturbances, or momentary decreases in voltage, are considered to be the most prominent power quality problem. Voltage sag is a short-term decrease in voltage lasting anywhere from milliseconds up to a few seconds. It can cause malfunction, miss operation and less reliability of the equipment. There are many types of lighting loads that are being used nowadays in industrial and in residential such as fluorescent lamp, high intensity discharge such as metal halide and mercury vapor lamp
and incandescent lamp. When voltage sag occurs, it can reduce the performance of those lamps such as the lamps needs time to stabilize for several minutes or the lamp fail to reignite after supply recovery thus it will effect on the economy progress where it make unattractive infrastructure for the investors. In this research, Schaffner Profline 2100 was used to generate voltage sag to the equipment under test (EUT) which is a lighting load. This report will describe about voltage sags and the effects of voltage sag on different type of lighting load and also mitigation method to overcome voltage sags thus protect utility and end user equipment from failing or miss-operating. From the experiment, there are four conclusion that been made based on the observation on the effect on the lamp, the relationship between the duration and the depth of sag, the sensitivity of equipment for voltage sag from the standard (IEC 61000-4-11/IEC 61000-4-34, SEMI F47 and CBEMA (ITI) Curve) and the current spike that occurs. Eventually, when voltage sag happened, a current spike occurs and the current are exceeding the rated current thus can damaging the equipment. |
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Mohd. Rafi Adzman (Advisor) |
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Mohd. Rafi Adzman (Advisor) Ezly Azril Khalid |
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Learning Object |
| author |
Ezly Azril Khalid |
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Ezly Azril Khalid |
| title |
Lighting loads susceptibility to voltage sag |
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Lighting loads susceptibility to voltage sag |
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Lighting loads susceptibility to voltage sag |
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Lighting loads susceptibility to voltage sag |
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Lighting loads susceptibility to voltage sag |
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lighting loads susceptibility to voltage sag |
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Universiti Malaysia Perlis |
| publishDate |
2009 |
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http://dspace.unimap.edu.my/xmlui/handle/123456789/4480 |
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