Installation menu – Kathrein UFD 545 User Manual
Page 37
Installation Menu
37
Therefore, before changing the LO frequency make sure that this is at all necessary.
The oscillator frequencies shown at the top of the picture are the as-delivered
settings.
Changing the oscillator frequency
Move over to the right-hand side in the LNB configuration menu by pressing
O
,
the setting for LO High will be highlighted in colour. Using the number buttons, you
can now enter a frequency matching your system. The same also applies for the
LO Low setting. Press the
ou
buttons to go to this setting.
Press
L
4x to exit the menu. At the same time, the receiver will confirm that the
values have been saved.
If a setting is incorrect, you will see the following message on the screen:
Operation
Factory setting "ON".
Normally, the supply voltage should always be switched on.
For communal or party systems, you must check whether the supply voltage must
be switched off!
Standby
Under this menu point the supply voltage for the LNB in receiver standby mode can
be switched on and off. It can be switched off for individual and communal
systems.
The factory setting is "OFF".
Receiving two satellites
If your receiver is connected to a multifeed antenna that is also aligned with the
HotBird satellites for instance, you will need to change the receiver settings for the
DiSEqC signal. The same, of course, also applies to other satellites. (DiSEqC =
Digital Satellite Equipment Control).
Different control signals are required for the purpose of selecting the satellite
signals. To date, the LNB supply voltages 14/18 V and the 22 kHz signal
(superimposed on the LNB supply voltage) have been sufficient for signal selection
in the majority of applications. With these four switching signals it is possible to
switch between horizontally and vertically polarized signals as well as between
satellites (multifeed reception).
However, additional control signals are now required for LNB activation and signal
selection in view of the expansion of the frequency range to 12 GHz (high-band
range) and for receiving more than two satellites.
The "DiSEqC" control signal is responsible for this task. This signal represents a
special modulation of the already existing 22 kHz signal.
Bad or no signal