Effects of the Window Size Variation in the RMS Voltage and Industrial Control Measures
- Resource Type
- Conference
- Authors
- Men, Christopher R.; Dow, Douglas E.; Zia, Umair; Ghanavati, Afsaneh
- Source
- 2024 IEEE Power & Energy Society Innovative Smart Grid Technologies Conference (ISGT) Power & Energy Society Innovative Smart Grid Technologies Conference (ISGT), 2024 IEEE. :1-5 Feb, 2024
- Subject
- Power, Energy and Industry Applications
Voltage measurement
Voltage fluctuations
Power quality
Smart grids
Voltage control
Transient analysis
Matlab
sags
swells
CBEMA curve
ITIC curve
MATLAB
root mean square
transients
- Language
- ISSN
- 2472-8152
Sags and swells are types of power quality disturbances that involve fluctuations in voltage. Sags are decreases in a voltage’s magnitude while swells are increases in a voltage’s magnitude. There are a number of different techniques to identify and classify these power quality disturbances, however in an industrial setting power utilities typically employ the use of the CBEMA and ITIC curves to classify the power quality disturbances they encounter. The CBEMA and ITIC curves utilize RMS voltage to denote whether a disturbance is expected to impact the system it occurs on, however there are a number of ambiguities surrounding the use of both curves. One such ambiguity is the lack of specification surrounding the window size used to calculate RMS values. This paper proposes MATLAB scripts that can synthesize waveforms with sags and swells according to a variety of user-defined parameters and provide their RMS voltages. This paper also presents a MATLAB function that can plot the RMS voltage magnitude and durations of transient events onto the ITIC curve. This paper explores the effect of varying the window size used to calculate RMS voltage for each disturbance across different parameters. Moreover, the paper presents an analysis of the RMS voltage of a real-world voltage sag in a three-phase system.