5
5
POWER ON/OFF SWITCH
Toggle the switch to switch between fully off and
standby mode. When the phono stage is in standby
mode, the power consumption is less than 1W.
When the phono stage is on, the power consumption
is less than 10W.
6
POWER INLET (CAUTION!)
The phono stage accepts mains voltages from 100
to 240VAC 50-60Hz. The power inlet accepts power
cables with an IEC 60320-C13 female connector.
To ensure the best performance, please consult your
Aavik Acoustics dealer for a suitable mains cable.
7
RS-232, FIRMWARE UPDATE
The phono stage RS-232 terminal is used mainly for
firmware updates.You can check for firmware updates
on the Aavik Acoustics homepage.
8
TRIGGER OUTPUTS
The phono stage is equipped with two DC trigger
connectors. These can be used to power-on the phono
stage, when the amplifier is switched on. Connect
one of the connectors to the amplifier. The second
connector can be used to switch on a further piece
of equipment. The phono stage will switch on when
5-15VDC is applied to a trigger input.
9
PHONO INPUT
The phono stage is equipped with one RCA phono
input. The phono input is fully balanced with floating
ground. The ground reference is found on the ground
terminal (10). To ensure the best performance, use a
phono cable with a separate ground wire. The phono
stage uses the RIAA equalization curve, and is suit-
able for most low to medium output MC cartridges.
The cartridge load impedance is adjustable in 18
steps from 50 Ohm to 10 kOhm. Please see “MENU
FUNCTIONS” on page 7 for guidance.
REAR PANEL FEATURES
RS-232
TRIGGER
THROUGH
PHONO
LEFT
LEFT
RIGHT
GND
RIGHT
LINE OUT
ON / OFF
RIAA R·180
- MADE IN DENMARK
100-240V AC
RS-232
TRIGGER
OUT
PHONO
LEFT
LEFT
RIGHT
GND
RIGHT
LINE OUT
ON / OFF
RIAA R·280
- MADE IN DENMARK
100-240V AC
RIAA
WARNING: To reduce the risk of fire or electric shock, do not expose the
phono stage to rain or moisture.
The lightning flash with an arrowhead symbol within an equilateral
triangle, is intended to alert the user to the presence of uninsulated
‘dangerous voltage’ within the product’s enclosure that may be of suffi-
cient magnitude to constitute a risk of electric shock to persons.
