| Title |
Effects of Ac Mutual Coupling According to Location of Auxiliary Electrodes In Measuring the Ground Impedance of Vertically or Horizontally Buried Ground Electrode |
| Authors |
Young-Chul Choi ; Jong-Hyuk Choi ; Bok-Hee Lee ; Duk-Kyu Jeon |
| Keywords |
Ground Rod ; Counterpoise ; Ground Impedance ; Ground Resistance ; Frequency-Dependent Ground Impedance ; Ac Mutual Coupling |
| Abstract |
In order to minimize ac mutual coupling, the auxiliary electrode are located at a right angle in measuring ground impedance. In case that the measurement space is limited, the alternative method is employed. At that time, it is necessary to investigate the measurement errors due to ac mutual coupling and earth mutual resistance in measuring the ground impedances. This paper presents the measurement accuracy according to the location of the current and potential auxiliary electrodes in measuring ground impedance of vertically or horizontally buried ground electrode. The measurement errors due to ac mutual coupling were evaluated. Consequently, the effect of ac mutual coupling on the measurement accuracy for horizontally buried ground electrode is greater than that for vertically buried ground electrode. Measurement errors due to ac mutual coupling is the largest when the current and potential auxiliary electrodes are located in parallel. The 61.8[%] rule is inappropriate in measuring ground measurement. Theoretically, in case that the angle between the current and potential auxiliary electrodes is 90[˚], there is no ac mutual coupling. If it is not possible to route the current and potential auxiliary electrodes at a right angle with limitation of measurement space, the location of these electrodes with an obtuse angle is preferred to that with an acute angle in reducing the measurement errors due to ac mutual coupling. |