Non-contact type voltage sensor for dual-wire power cable and method for compensating installation position variation thereof

What is claimed is: 1. A method for compensating voltage sensor installation position variation, comprising the following steps: measuring a plurality of voltage parameters of a dual-wire power cable, performed by a first plurality of voltage sensing units and a second plurality of voltage sensing units, wherein the first plurality of voltage sensing units are positioned on said voltage sensor to detect a change in said voltage parameters due to a vertical placement of said dual-wire power cable in said voltage sensor, and the second plurality of voltage sensing units are positioned on said voltage sensor to detect a change in said voltage parameters due to a horizontal placement of said dual-wire power cable in said voltage sensor; providing a plurality of compensation indicators for compensating a horizontal displacement of said dual-wire power cable in said voltage sensor and a vertical displacement of said dual-wire power cable in said voltage sensor generated during installation of said voltage sensor on the dual-wire power cable, wherein the compensation indicators provide pre-measurement values of the voltage parameters under different horizontal displacements and vertical displacements when a predetermined voltage is inputted into the dual-wire power cable; performing an iterative operation, wherein the iterative operation calculates an estimated horizontal displacement according to an initial value of the vertical displacement, the voltage parameters and the compensation indicators, and calculates an estimated input voltage according to the initial value, the estimated horizontal displacement and the compensation indicators, and then calculates an estimated vertical displacement according to the estimated horizontal displacement, the voltage parameters, the estimated input voltage and the compensation indicators; and determining whether the estimated input voltage conforms to an iterative termination condition, wherein if the estimated input voltage conforms to the iterative termination condition, the iterative operation ends; if the estimated input voltage fails to conform to the iterative termination condition, the iterative operation continues until the estimated input voltage conforms to the iterative termination condition. 2. The method of claim 1 , further comprising the following step: providing a vertical-direction voltage, a first horizontal-direction voltage and a second horizontal-direction voltage via the voltage parameters. 3. The method of claim 2 , further comprising the following step: providing a horizontal displacement compensation indicator, a vertical displacement compensation indicator and an input voltage calibration indicator. 4. The method of claim 3 , further comprising the following step: providing pre-measurement values of the vertical displacement, the first horizontal-direction voltage, and the second horizontal-direction voltage under different horizontal displacements when the predetermined voltage is inputted into the dual-wire power cable according to the horizontal displacement compensation indicator. 5. The method of claim 4 , further comprising the following step: providing pre-measurement values of the horizontal displacement and the first horizontal-direction voltage under different vertical displacements when the predetermined voltage is inputted into the dual-wire power cable according to the input voltage calibration indicator. 6. The method of claim 5 , further comprising the following step: providing pre-measurement values of the horizontal displacement and the vertical-direction voltage under different vertical displacements when the predetermined voltage is inputted into the dual-wire power cable according to the vertical displacement compensation indicator. 7. The method of claim 1 , further comprising the following step: terminating the iterative operation after a number of the iterative operation reaches a predetermined value. 8. The method of claim 1 , wherein said voltage sensor outputs said estimated input voltage of said dual-wire power cable after said iterative operation ends.