Manual

4 Controls

4.2 Metering

StudioLive™ AI-series Mixers

Owner’s Manual

4.2.2 Subgroup and Main Meters

Subgroup Meters. Display the Level of the Subgroups.

In the upper-right corner of the StudioLive are the subgroup meters, which

display the levels of the subgroup outputs. These meters are scaled from

-60 to +18 dBu.

Main Bus Meters. Display the Level of the Main Output.

In the upper right corner of the StudioLive are the Main meters, which display the

output levels of the main stereo bus. These meters are scaled from -60 to +24 dBu.

Power User Tip: Because of the diﬀerent full-scale reference between the subgroups

and the Main Output meters, you may notice a slight metering variation when a single

channel is patched to both a subgroup and the Main bus.

4.2.3 A Quick Note About dBu and dBFS

StudioLive-series mixers meter the channels and the main and subgroup

buses using two diﬀerent reference scales. The channel levels are measured

in dBFS and the output levels are measured in dBu. To understand how

this impacts the metering on your StudioLive, you must ﬁrst be aware of

the diﬀerence between dBu and dBFS and how both are measured.

dB is an abbreviation for “decibel.” One decibel is equal to one-tenth of a Bel.

When a measurement is stated in dB, it is describing the ratio between two

levels: the level being measured and the level being referenced. Without

a reference point, the absolute dB value cannot be determined.

dBFS, or “decibels relative to full scale,” is used to measure amplitude levels

in digital systems that have a maximum peak level (the point at which

the A/D converter will clip). When measuring in dBFS, 0 dBFS cannot be

exceeded. 0 dBFS can equal +10 to +24 dBu, depending on the device’s

maximum peak level. For StudioLive-series mixers, 0 dBFS equals +18

dBu in the subgroups and +24 dBu in the main output meters.

dBu measures decibels relative to 0.775 volts with an open or unloaded circuit. (The

“u” in “dBu” stands for unloaded.) While 0.775 volts may seem rather arbitrary, it is the

voltage level that delivers 1 mW in a 600Ω resistor, which is the standard reference

impedance in a telephone audio circuit. (The Bel was named after Alexander

Graham Bell). Because the StudioLive subgroup and main outputs are electrical,

rather than digital, it is more advantageous to meter them relative to voltage.

The Subgroup and Main meters display signals from -60 to +18 dBu (-78 to

0 dBFS) and -60 to +24 dBu (-72 to 0 dBFS). The StudioLive channel meters

display signals from -72 to 0 dBFS. This means that the Subgroup meters will

display 6 dBu of signal before your channel meters will register a signal.

If you have multiple channels set to unity and routed to the Subgroup and Main

buses, you will see even more signal in your output meters. Every time you double

the channel count, you add 3 dB more signal to the bus. So if you have 16 inputs

set to unity and routed to a subgroup and to the mains, you will see 12 dB more

signal level than you would if only one channel were routed. This means your