The interval between successive peaks of a sinusoidal waveform resulting from rectified current is referred to as the peak-to-peak distance. This metric represents the measure of the spatial separation from one peak to the subsequent peak along the waveform’s cycle. By examining this distance, one can gain insights into the periodic nature of the rectified current and analyze its characteristics with respect to frequency, amplitude, and overall waveform behavior. Understanding the peak-to-peak distance contributes to a comprehensive comprehension of the electrical phenomena associated with rectified currents and aids in various applications, ranging from signal processing to power electronics.