Sound your best.
Leverage the ever-perfect power with Furman’s exclusive Stable Power Regulation Technology™. When incoming voltages are either too low or dangerously high, they are converted into a stable, steady, 120V AC (typically ±1V). This allows a voltage-starved system to perform at its full potential. Electronic components are supplied with constant, unwavering AC voltage, assuring trouble-free service for any environment suffering from unstable power.
If you’re not sounding your best, it could be within your power – Power Conditioner, that is. Inferior power conditioning systems often cannot handle severe voltage fluctuations, so power amplifiers and powered subwoofers cannot perform to their full potential. With Furman solutions, your full potential is always at hand.
Even a relatively modest reduction in AC voltage can obliterate the sonic impact of an otherwise superior system. Low voltage can also burn out a component’s power supply because the internal power supply must work harder to make up for the lack of incoming voltage.
Just as problematic are the excessively high line voltages. Excess voltage can overheat sensitive electronics, lower the life and reliability of projector lamps and cause many circuits to shut down.
With Furman’s exclusive Stable Power Regulation Technology, incoming voltages that are either too low or dangerously high are converted into a stable, steady, 120V AC (typically ±1V). This allows a voltage-starved system to perform at its full potential. Electronic components are supplied with constant, unwavering AC voltage, assuring trouble free service for any environment suffering from unstable power.
Furthermore, Furman’s Stable Voltage Regulation generates virtually no heat and produces none of the mechanical noise typical in inferior AC voltage regulators. Our zero-crossing, solid state technology, provides virtually unlimited peak current delivery. This helps avoid the current limiting found in AC regulators that convert AC power into DC, and then synthesize an AC output signal.