Solving one problem by creating another isn’t a solution.
Passive power conditioners (i.e., any device NOT a regenerator) offer a trade-off: they reduce noise but at the cost of dynamics and musical life. That’s because they raise impedance and do not fix what's wrong with the AC power.
That’s where Power Plants come in.
Instead of filtering the incoming AC, Power Plant regenerators take a completely different approach. They start by converting the incoming power to DC—effectively wiping the slate clean—then regenerate a brand-new, ultra-low distortion sine wave: lowering output impedance and restoring the full power envelope that’s often missing from your utility’s waveform.
Flat-topping.
That’s when the peaks of the sine wave—where most of the energy is—get shaved off because of the thousands of feet of shared wiring between you and your neighbors. That wire has impedance, and when everyone’s drawing current at the same time—air conditioners, lights, computers, refrigerators, amplifiers—it simply can’t keep up. The voltage sags, the waveform flattens, and your system is left gasping for power.
It’s like trying to breathe through a flattened straw—your equipment never quite gets the energy it was designed to run on, and the result is compressed dynamics, weak bass, and sluggish transient response.
A Power Plant fixes that by restoring the full shape of the sine wave and supplying the missing energy at the peaks. So instead of just making the power quieter, it makes it correct—and that changes everything. Instruments regain their weight and immediacy. The soundstage opens up. Microdynamics return.
It’s not a subtle improvement—it’s a transformation.
If you’ve ever wondered what your system is really running on, have a look here psaudio.com/pages/powerplay.
Once you hear your system powered by a regenerator, there’s no going back because this isn’t about cleaning your power.
It’s about rebuilding it—to be what it should have been in the first place.
0 comments