ADAM SUB7 - Active Subwoofer 140 W / 1x7"
- 7“ Subwoofer (paper)
- Amp. Power RMS / Music: 140 W / 210 W
- Frequency Response: 32 Hz - 150 Hz
- Max. peak SPL at 1 m: ≥107 dB
- Remote Control
ADAM Audio subwoofers are designed with one primary goal in mind: Achieving absolute accuracy and an authentic natural sound in the process of music reproduction. This means combining exceptional bass power with precision and clarity in every subwoofer. These elements are the perfect partners to complement the highly acclaimed clarity and transparency of ADAM monitors in the lower and lowest frequencies.
All subwoofers feature both balanced (XLR) and unbalanced (RCA) input/output connectors and comprehensive control options that allow for adapting to different room acoustics and requirements.
Panel / Controls.
Included: Wireless Remote control, Batteries (3 x AAA), Power cord, Manual
All subwoofers feature a level control (-60dB to +6dB), phase switch (180°) and a variable upper frequency control (50-150Hz). For the satellite outputs, an 85Hz high pass filter can be switched in to block frequencies below 85Hz so satellite speakers can meet the Dolby® recommendations for theater sound and also to relieve the satellites from the lower frequencies. In addition, you can either switch on/off the subwoofer manually or use the option of automatically powering up the subwoofer whenever it receives a signal (‚signal-on/ continuous').
The Sub7 has been designed to complement smaller monitors such as the AX-Series. Its small footprint allows for easy placement, even in small environments. The included remote control facilitates volume changes or crossover frequency adjustments from your favorite listening position.
The Sub7 is equipped with both balanced (XLR) and unbalanced (RCA) input and output connectors, allowing the Sub7 to be used in home or studio environments. Numerous control options allow for many and varied adjustments to room acoustics or the satellites used.
The low cutoff frequency of 32Hz (-3dB) enables this subwoofer to reproduce even the lowest frequencies with accuracy and realism.