Bricasti's M7 digital studio reverb processor
Rear panel of the Bricasti M7
Bricasti M7 Stereo Reverb Processor

The Bricasti Model 7 reverb processor provides the highest level of musicality and ease of control imaginable in a processor dedicated to the task of reverberation.

£4699.00 inc VAT

  • True stereo reverb
  • 100x hall presets
  • 12 program parameters
  • 100 user presets
  • 4x front panel presets
  • MIDI I/O
  • 24-bit digital I/O via AES
  • AES single wire 192 kHz
  • 6x analog device DSP chips
  • Built-in linear ‘Trafo' PSU

Each design element of the Model 7 is a carefully considered statement of our vision of what the evolution of reverberation processing in its most classic form can be. With a deep appreciation of the best designs which precede it, and a passion for moving the science of reverberation forward, the Model 7 provides a palette of sounds that encompass the familiar as well as new expressions in the art. Listen to the new reference in reverb processing; it will bring new life to your art, in a way unimagined by any process before it.

Modern High Resolution Design
M7 features a wide library of preset reverb patches

Bricasti's M7 utilizes a stunning array of the latest DSP processors, provides a platform for the long overdue next step in reverb processing algorithms. A separate fully differential analog section and dedicated transformer based linear power supply provide the finest analog specifications of any product of its kind.

Flawless Hard-Wearing Build
M7 from Bricasti is ruggedly built

The Bricasti M7 features an exceptionally strong stainless steel chassis, and a tooled aluminum front panel, combine with a classic high visibility display and straight forward human interface, to complete an enduring design that is intended to fulfill its role, now and into the future.

M7 - the ultimate digital reverb from Bricasti Design

Frequency Response 10 Hz - 20 kHz < 0.05 dB
Common Mode Rejection > 100 dB @ <= 1 kHz
Max Input +24 dBu
Min Input +4 dBu
Dynamic Range >116 dB, A-Weighted
THD+N < 0.001%