Alesis Elevate 6 active User Manual - Page 5
Connection, Acoustic Compensation - test
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Connection To connect your monitor to your mixer or audio interface, follow the steps below for your connector type. Make sure your audio source is line-level. XLR Cable: Connect a channel of your audio source's main output to the monitor's XLR input. Important: Pin 2 is positive/hot, Pin 3 is negative/cold, and Pin 1 (the shield pin) is the ground. 1/4" (6.35 mm) TRS or TS Cable: Connect a channel of your audio source's main output to the monitor's 1/4" (6.35 mm) input. Important: For balanced cables (TRS, shown here), the tip of the plug is positive/hot, the ring is negative/cold, and the sleeve is the ground. For unbalanced cables (TS), the tip of the plug is the signal, and the sleeve is the ground. RCA Cable: Connect a channel of your audio source's main output to the monitor's RCA input. Make sure your audio source is line-level. Acoustic Compensation Since studio monitors (including the Elevate 6) are designed to have a flat frequency response, you may be wondering why some monitors include additional EQ controls. Elevate 6 has an HF Trim switch and LF Trim switch for two reasons: Varying studio size, shape, and acoustical treatment: Elevate 6 monitors are tested and tuned in an anechoic chamber to be as linear (flat) as possible. This means that leaving the switch set to their default settings will closely resemble monitoring in an "ideal" environment similar to those found in high-end recording studios. In these studios, acousticians determine the size and shape of the control room, placement of the studio monitors and large furniture, construction materials of the walls and ceiling, and acoustical treatments applied to various parts of the room. This ensures that studio monitors will sound as flat and accurate as possible at the "mixing position." In the real world, however, many project studios are set up where the room cannot be easily modified to improve acoustics. This means that the room's design may adversely affect the monitors' frequency response (i.e, sound reflections can cause the monitors to not sound linear). Monitor placement within a studio: The proximity of your monitors to the walls, floors, and ceilings may adversely affect the frequency response of what you hear at the mixing position. This is because all monitors radiate low-frequency sounds in all directions-not just toward the mixing position. Large, flat surfaces within one foot of the speaker act as low-frequency "sound reflectors" for bass energy, resulting in bass that sounds "tubby" or exaggerated. To configure the HF Trim and LF Trim switches, begin by mixing a few songs with these switches set to their 0dB positions. If your mixes sound good in the studio and on other speakers (car stereos, "multimedia" computer speakers, etc.), leave the switches in their default positions. • If your mixes sound good in the studio but sound "dull" and lack high-frequency "sparkle" on other playback systems, set the HF Trim to -2dB, and/or set the LF Trim to +2dB. These settings compensate for a studio that sounds too "dead" (not enough high-frequency reflection around the room). • If your mixes sound good in the studio but sound too "crispy" or "brittle" and contain too much high-frequency content on other playback systems, set the HF Trim to +2dB, and/or set the LF Trim to -2dB. These settings compensate for a studio that sounds too "live" (too much highfrequency reflection around the room). Important: When using two Elevate 6 monitors, make sure the Volume knob, HF Trim switch, and LF Trim switch are in the same position on both monitors. 5