Peavey IP 4C is a power amplifier that combines the latest semiconductor technology, power transformer design, and a unique fan-cooled heat sink arrangement to produce a low-cost power amplifier that doesn't sacrifice performance or reliability. It is capable of producing an output of more than 250 watts RMS into a 2 ohms load, 210 watts RMS into a 4 ohms load, and 130 watts RMS into an 8 ohms load, both channels operating at 1 kHz continuously at less than 1% THD. In bridge mode, the amplifier is capable of producing an output of more than 500 watts RMS into a 4 ohms load, 420 watts RMS into a 8 ohms load, and 260 watts RMS into a 16 ohms load operating from 20 Hz to 20 kHz continuously at less than 1% THD.
Peavey IP 4C is a power amplifier that combines the latest semiconductor technology, power transformer design, and a unique fan-cooled heat sink arrangement to produce a low-cost power amplifier that doesn't sacrifice performance or reliability. It is capable of producing an output of more than 250 watts RMS into a 2 ohms load, 210 watts RMS into a 4 ohms load, and 130 watts RMS into an 8 ohms load, both channels operating at 1 kHz continuously at less than 1% THD. In bridge mode, the amplifier is capable of producing an output of more than 500 watts RMS into a 4 ohms load, 420 watts RMS into a 8 ohms load, and 260 watts RMS into a 16 ohms load operating from 20 Hz to 20 kHz continuously at less than 1% THD.
Peavey IP 4C is a power amplifier that combines the latest semiconductor technology, power transformer design, and a unique fan-cooled heat sink arrangement to produce a low-cost power amplifier that doesn't sacrifice performance or reliability. It is capable of producing an output of more than 250 watts RMS into a 2 ohms load, 210 watts RMS into a 4 ohms load, and 130 watts RMS into an 8 ohms load, both channels operating at 1 kHz continuously at less than 1% THD. In bridge mode, the amplifier is capable of producing an output of more than 500 watts RMS into a 4 ohms load, 420 watts RMS into a 8 ohms load, and 260 watts RMS into a 16 ohms load operating from 20 Hz to 20 kHz continuously at less than 1% THD.
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