Abstract: The present invention provides a high voltage ride-through method for wind power based on coordinated control of energy storage and reactive compensation devices, comprising fault determination based on voltages of grid connection points of wind farms; setting voltage fluctuation thresholds of grid connection points under faults, and determining whether to implement super capacitor, doubly-fed induction generator, and static var generator coordinated control strategies based on voltage fluctuation thresholds of grid connection points of commutation bus voltages under faults; calculating reactive power shortage of grid connection points under faults based on the control strategies; and determining whether the reactive power shortage of grid connection points is within wind farm regulation ranges and implement corresponding control strategies to adjust voltages based on the reactive power shortage; and determining whether to utilize static var generators to compensate reactive power based on reactive power comp

Abstract: The present invention discloses a waveform peak clipping method and system. The waveform peak clipping method includes: 1) for a complex waveform, building two pulses by a delta function at t=0: a real pulse and an imaginary pulse; 2) performing fast Fourier transform on the two pulses and removing power at a load rate; 3) compensating for missing power and performing inverse fast Fourier transform on results; 4) convolving the pulses built in step 3) with the original waveform; and 5) iterating the convolution process until the amplitudes of the obtained waveforms at all time samples are within a limit range of a digital-to-analog converter during clipping events of all the time samples. The peak clipping method is set in the present invention to limit the amplitude of a bias waveform of a transition edge sensor in any given time sample to a maximum range of the digital-to-analog converter, without affecting the power at the carrier frequencies.