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MOTU's 896mk3 FireWire Audio Interface provides eight channels of 24-bit 192 kHz analog recording and playback, combined with sixteen channels of optical digital I/O, stereo AES/EBU, S/PDIF and separate analog main outs. You can expand your system by connecting the 8-pre mic input expander or other MOTU audio interfaces to the 896mk3.
Ideal for use in the studio and on stage, the 896mk3 works with or without a computer. As an interface or as a standalone mixer, the 896mk3 provides 28 separate inputs and 32 separate outputs, including dedicated main outs on XLRs and two front panel headphone outs.
Connect all of your studio gear (including mics, guitars, synths, keyboards, drum machines, effects processors, etc.) to the 896mk3 and you can record, monitor, route and process all live inputs using the professional on-board CueMix FX digital mixer with no latency or processor strain on your computer. Apply hardware DSP-driven effects processing to inputs, outputs, and busses independent of your host computer.
Sound Modeling Features:
* Add Classic Reverb™ with lengths up to 60 seconds.
* 7-band parametric EQ, featuring filter types carefully modeled after British analog console EQs.
* Two forms of compression: a conventional compressor and the Leveler™, an accurate model of the legendary LA-2A™ optical compressor
Additional Features:
* Signal overload protection provides 12dB headroom when recording from mic/guitar inputs without clipping
* All mixing and effects parameters are adjustable using the front panel backlit LCD.
* Cross-platform compatibility with Mac, Windows, most audio software, and host-based effects via WDM/ASIO/Core Audio drivers.
* Includes AudioDesk workstation software for Mac, with 24-bit recording/editing and 32-bit mixing/processing/mastering.
* Each input equipped with its own trim pot, 48V phantom power switch and 20 dB pad switch located on the front panel.
* The preamp on each input provides over 60 dB of boost.
* All analog inputs equipped with V-Limit™ hardware limiter that helps prevent digital clipping from overloaded input signals.
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