6 System templates for the creation of user setups:o T1: 4 stereo inputs x 4 mono outputso T2: 4 stereo inputs x 2 stereo outputso T3: 4 stereo inputs x 1 stereo output + 2 mono outputso T4: 3 stereo inputs + 2 mono inputs x 4 mono outputso T5: 3 stereo inputs + 2 mono inputs x 2 stereo outputso T6: 3 stereo inputs + 2 mono inputs x 1 stereo output + 2 mono outputso T7: 2 stereo inputs + 4 mono inputs x 4 mono outputso T8: 2 stereo inputs + 4 mono inputs x 2 stereo outputso T9: 2 stereo inputs + 4 mono inputs x 1 stereo output + 2 mono outputsEach system template automatically sets the operating and control mode of the channels andtheir settings, including the stereo linked group they pertain to. Example: in a stereo input oroutput configuration, the settings applied to the left channel are also automatically applied to theright channel, and vice versa User presets: 20 Editing names (labels) of inputs, outputs and user presets Three front panel locking modes, with password protection: total, with the exception ofMUTE/VOL for inputs and outputs, or with the exception of MUTE/VOL of outputs and activationand input levels3. INSTALLATIONThe DAM614 can be mounted in a standard 19” rack (482.6 mm) taking up one height unit(44 mm).For professional use it is recommended to place the processor in the same rack as the poweramplifiers.Given the small power consumption of the unit, no ventilation is required. Nevertheless, it isadvisable not to expose the unit to extreme temperatures as well as ensure a dry and dust-free operatingenvironment.It is important not to place the processor next to electrical noise sources such as transformers,voltage dimmers, motors, etc. or their mains supply cables. The metal cover of the device should neverbe removed under any circumstance for that same reason.The DAM614 operates with alternate current (AC) between 90 and 264V at 47 to 63Hz. Thisdevice features an oversized power supply which adapts itself to any mains voltage around the world,without the need of manual adjustment.Even though the noise produced by powering up is minimum, it is always advisable to follow thispower up sequence: signal sources, mixing unit, processor and, finally, power amplifiers. The powerdown sequence must follow exactly a reverse order. By closely following this sequences, all peaks ortransients produced by switching on and off devices do not affect the next devices in the chain and, ofcourse, never reach the loudspeakers, which are extremely sensitive about this.