Shaking up the pro audio industry with innovative power amplifier designs has become our trademark. More than 30 years ago, we were the first to break the $1-per-watt barrier. Now with the Peavey IPR Series, we've pushed technological limits again to bring you an amazingly powerful and efficient power amp for just pennies per watt.
Boasting a net weight as low as 7 lbs., the groundbreaking IPR Series utilizes an advanced design that allows our engineers to dramatically reduce weight while increasing output power, reliability and thermal efficiency. IPR Series amplifiers are designed with a resonant switch-mode power supply and a high-speed class D topology that yields the highest audio resolution and efficiency available. And all at a cost that shatters the old-guard paradigm of power-amp valuation.
The IPR DSP Series amplifiers feature the same power ratings, design and efficiency, plus a 32-bit processor with a suite of delays and crossovers, pre-programmed loudspeaker settings, stereo/mono operation, lockout--and for the first time in any power amplifier, built-in Waves® MaxxBass® technology, which uses psycho-acoustics to add more low-end to your system without the need for more power amps, processing or subwoofers.
Amps in the IPR DSP line contain presets for Peavey SP®, PR®, Impulse®, SSE™, QW®, PV® Series loudspeakers and monitors, as well as other commonly used loudspeaker configurations, plus special presets for program music applications (dance, speech, rock, thump, loudness, contemporary worship). Manual mode allows you to assign your custom crossover points, EQ, delay and more.
The PV 1600 Bi-Pack is an integrated, all-in-one power solution for bi-amping non-powered speakers such as the Peavey SP™ 2, SP 4 or Impulse® 1015. The PV 1600 Bi-Pack delivers 930 watts to woofers (lows) and 350 watts to compression drivers (highs) through a specialized crossover with built-in EQ and phase adjustment. In addition to a 50 Hz bass boost with roll off, a gentle slope throughout the rest of the low frequency range is utilized up to the crossover frequency.
