Phase correction method with test equipment, Overload indicators, Subwoofer bypass control – Genelec 7060B User Manual

system it is necessary to temporarily connect
either of the channels to this output.

Power up the system and set the DIP

switches 3 (SUM IN MODE) and 4 (LFE +10
dB) on the first switch group to "ON" Now you
should hear an 85 Hz test signal from the
subwoofer and the main monitor connected
to the center channel output.

Toggle the -180° phase switch
(DIP 4 on the second switch
group) on and off, and set it to
the position which gives the
lowest sound level at the listen-
ing position.

Next toggle the -90° phase
switch (DIP 3) on and off, and
again set it to the position which
gives the lowest sound level.

Finally, set the -180° phase
switch (DIP 4) to the opposite
setting and deactivate the test
signal.

Phase correction method with

test equipment

The following procedure matches the phase
between the subwoofer and the main moni-

Table 2. Recommended subwoofer/main monitor combinations.

tors using a frequency analyser and a pink
noise generator. Connect a high grade
measuring microphone to the analyser and
feed pink noise into the "CENTER IN" input
of the subwoofer. The subwoofer's bass
management system will direct the frequen-
cies above 85 Hz to the center main monitor
while the subwoofer reproduces the frequen-
cies below 85 Hz.

Position the microphone at the listening

position and adjust the input sensitivity of
the subwoofer until frequencies below and
above 85 Hz are reproduced at equal level.
Then adjust the phase control switches for
the maximum dip of at least -6 dB at the
crossover frequency (85 Hz).

Change the -180° switch to the opposite

setting. The phase should now be set cor-
rectly and the frequency analyser should
show a smooth response around 85 Hz.

Overload indicators

The mode indicator LED on the connector
panel will turn from green to yellow to indi-
cate clipping and then to red to indicate that
the protection circuit has activated. If this
occurs frequently, reduce the input level to
the subwoofer until the LED remains green.

If the LED on the connector panel is not

easily visible, the optional Remote LED Kit

can be used to bring it into view. The kit con-
sists of a LED in a compact case and a RJ11
cable to connect the case and the "REMOTE"
RJ11 connector on the connector panel.

Subwoofer bypass control

A bypass control feature is included in the
subwoofer circuits so that the effect of the
subwoofer on the whole monitor system can
be determined. With the bypass switch on,
the high pass filters for the main monitors are
overridden and the system behaves as if the
subwoofer was not connected. The bypass
function has no effect on the LFE input. Two
different bypass remote controllers are avail-
able as optional equipment: 1092-400 switch
that can be connected to a 1/4" jack connec-
tor on the connector panel and 7000-416 that
connects to the "REMOTE" RJ11 connector.
The 7000-416 option also includes remote
control of the "LFE +10 dB" function and a
link for the 7000-415 remote LED option.

Subwoofer in analogue matrix

surround sound systems.

When using Genelec 7060B, 7070A or
7171A subwoofers in a consumer analogue
matrix surround sound system, such as
Dolby Surround, Dolby Pro-Logic or Pro-
Logic II or a professional matrix decoder
such as a Dolby SDU-4, route the front chan-
nels through the subwoofer so that the output
of the subwoofer is matched to the rest of the
system and select "Large" setting for the
front speakers on the decoder. If there is a
subwoofer channel output on the decoder it
should NOT be connected to the subwoofer's
"LFE IN" input since the processing within an
analogue decoder will conflict with the filter-
ing in the subwoofer. Connecting the rear
channels to the subwoofer is optional since
the rear channels from most matrix decoders
are band limited down to 100 Hz.

Monitoring the LFE channel

in digital discrete surround

sound systems

Some digital surround sound systems use
a discrete Low Frequency Effects channel
which should be connected to the "LFE IN"
input on the connector panel. This enables
the subwoofer to correctly reproduce all the
bass information in the mix.

Maximum

room

volume,

m

3

(ft

3

)

Maximum

listening

distance,

m (ft)

Front

loudspeakers

Stereo & LCR

Side and rear

loudspeakers

Subwoofers

for 2-channel

Stereo

Subwoofers

for 5-channel

Surround

75 (2,600) 2.0m (6’7”)

8030A

8030A

7050B

7060A

75 (2,600) 2.0m (6’7”)

8130A

8130A

7050B

7060A

(1)

85 (3,000) 2.2m (7’3”)

8040A

8040A

7060B

7070A

95 (3,400) 2.3m (7’7”)

8050A

8050A

7070A

7070A

110 (3,900) 2.4m (7’10”)

1032A

1032A

7070A

7071A

125 (4,400) 3.5m (11’6”)

1037C

1037C

7071A

2x7071A

170 (6,000) 4.0m (13’1”) 1038B & 1038BC

1038B

7071A

2x7071A

200 (7,000) 4.5m (14’9”) 1034B & 1034BC

1038B

7071A

2x7071A

(2)

240 (8,500) 4.7m (15’5”)

1039A

1038B

2x7071A

2x7071A

(2)

400 (14,000) 5.5m (18’1”)

1035B

1038B

2x7071A

(2)

3x7071A

(2)

400 (14,000) 5.5m (18’1”)

1036A

1038B

(3)

(3)

(1)

When using a digital input signal, the 8130A cannot be used with the subwoofer’s analogue crossover

filters. The subwoofer can be used for reproducing the LFE channel only.

(2)

Additional subwoofers of the same type may be required in a larger room with bass heavy program material.

(3)

Subwoofers are not necessarily required for a 1036A installation as these monitors are already full range.

For surround systems, subwoofers can be used to reproduce the LFE channel.