Static testing and calibrating method for PID link of control system of wind turbine

What is claimed is: 1. A static testing and calibrating method for PID link of control system of wind turbine, the method comprising: testing a PID control link, wherein the testing the PID control link comprises: a torque control PID test, wherein a torque control link of fans controls an active power of the wind turbine; an input of the torque control link is a speed deviation; a master control link is a PI controller; a PI output passes through a limiting altitude link of a maximum torque Tor max and a minimum torque Tor min ; a final output is a given active current I d ; and the final output is transferred to a main frequency converter to carry out active control; a reactive power control PID test, wherein a reactive power control link of fans controls a reactive power of the wind turbine; a reactive power instruction is input into the wind turbine through a open-loop control logic; and the open-loop control logic perform a reactive power compensation for the reactive power of the wind turbine, and pre-fabricated substation based on an active power output and a reactive power output; and a pitch angel control PID test, wherein a pitch angle control link of fans controls the pitch angle of the wind turbine; testing a PID regulator response characteristics, wherein the testing the PID regulator response characteristics comprises: testing the PID regulator response characteristics via a time domain test; and testing the PID regulator response characteristics via a frequency domain test; and calibrating the PID link of control system by applying test results of the PID control link and the PID regulation response characteristics. 2. The method of claim 1 , wherein the pitch angle control link comprises two PI control logics: rotation speed channel PI control and active power channel PI control. 3. The method of claim 1 , wherein the testing the PID regulator response characteristics via the time domain test comprises: selecting one PID link of the control system of the wind turbine and carrying out the time domain test; carrying out a step test via changing input signals before testing link of PID, wherein outputs are taken to identify various PID parameters; and changing the various PID parameter by inputting different combinations of PID parameters and repeating step of carrying out the step test. 4. The method of claim 3 , wherein the control system comprises a power control system, a voltage or reactive power control system, and a variable pitch control system. 5. The method of claim 4 , wherein the frequency domain test comprises: selecting one PID link of the control system and carrying out the frequency domain test; introducing a white noise signal before an input of PID, outputting feedback into a spectrum analyzer, enlarging the white noise signal, and carrying out the frequency domain test to record characteristics of amplitude-frequency and phase frequency; changing various PID parameters by taking different combinations of PID parameters and repeating the frequency domain test to record characteristics of amplitude-frequency and phase frequency; introducing the white noise signal before an input of measure link, outputting feedback into the spectrum analyzer, enlarging the white noise signal, and carrying out the frequency domain test to record characteristics of amplitude-frequency and phase frequency; and introducing the white noise signal before an input of delay link, outputting feedback into the spectrum analyzer, enlarging the white noise signal, and carrying out the frequency domain test to record characteristics of amplitude-frequency and phase frequency. 6. The method of claim 1 , wherein a typical parameters computational design in the pitch angle control PID test comprises: a rotation speed channel PID test comprising: a first proportional link test; a first integral link test; a first order inertia link test; an active power channel PID test comprising: a second proportional link test; a second integral link test.