You mount a raw driver (say, a 10-inch subwoofer) in free air. Using the LPM module, you apply a stimulus and measure impedance curves. The software computes the electrical Q (Qes), mechanical Q (Qms), and total Q (Qts) with laboratory precision.
After finalizing the low-end response, you export the data to the crossover module. You design a Linkwitz-Riley 24dB/octave low-pass filter. LEAP 5 shows you the impedance load on your amplifier, predicting if your amp will overheat into a 2-ohm dip at 60Hz. Linearx Leap 5
Yes—but with a caveat. The algorithms used in LEAP 5 (specifically the Delta-Compliance measurement and the Large-Signal solver) were never replicated in open-source software. If you want to understand why a vented box has a 3dB hump or why a passive radiator needs 50% more displacement than an active driver, LEAP 5 teaches you through visual feedback. You mount a raw driver (say, a 10-inch