Brand: YAMAHA
MODEL: DZR10
Yamaha DZR-10 10-Inch Powered Speaker System 2000W - Black
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The black Yamaha DZR10 is a 2-way powered loudspeaker designed for main/FOH and floor monitor applications. The 2000W Class-D b-iamp powers the 10" woofer and 2" compression driver, which combine to provide a frequency range of 44 Hz to 20 kHz (-10 dB) with a maximum SPL of 137 dB. The rotatable horn allows for vertical or horizontal mounting to further adapt it to the acoustic dimensions of a venue. The constant directivity horn was designed with the goal of providing smooth, level coverage across the intended coverage area, minimizing roll-off that is common in conventional horn designs.
- 2-way powered loudspeaker with a 2” HF and a 10" LF.
- Maximum 137dB SPL and 44Hz-20kHz frequency range is ideal for today’s audio engineering demands
- High power 2000W Class-D amplifier module.
- 96kHz DSP and FIR filter for true high-resolution sound with super low latency
- Features Advanced FIR-X tuning, the combination of FIR filtering and correct EQ for minimizing phase distortion.
The black Yamaha DZR10 is a 2-way powered loudspeaker designed for main/FOH and floor monitor applications. The 2000W Class-D b-iamp powers the 10" woofer and 2" compression driver, which combine to provide a frequency range of 44 Hz to 20 kHz (-10 dB) with a maximum SPL of 137 dB. The rotatable horn allows for vertical or horizontal mounting to further adapt it to the acoustic dimensions of a venue. The constant directivity horn was designed with the goal of providing smooth, level coverage across the intended coverage area, minimizing roll-off that is common in conventional horn designs.
- 2-way powered loudspeaker with a 2” HF and a 10" LF.
- Maximum 137dB SPL and 44Hz-20kHz frequency range is ideal for today’s audio engineering demands
- High power 2000W Class-D amplifier module.
- 96kHz DSP and FIR filter for true high-resolution sound with super low latency
- Features Advanced FIR-X tuning, the combination of FIR filtering and correct EQ for minimizing phase distortion.