Cisco Cisco D9824 Advanced Multi Decryption Receiver Installation Guide
Setup Menu
OL-29015-01
63
Menu Item
Description
Parameters
Select
Sets the method used by the RF tuner to
determine which input to use when switching
transports.
determine which input to use when switching
transports.
UserCfg - User
configuration will only use
the active RF input.
configuration will only use
the active RF input.
SW Map - Software map
uses the orbital position
settings from each input
and map it to those in the
NIT.
uses the orbital position
settings from each input
and map it to those in the
NIT.
LO1 (GHz)
Sets the lower oscillator frequency, in GHz, of
the LNB. In a single band oscillator, set its
frequency, in GHz.
the LNB. In a single band oscillator, set its
frequency, in GHz.
0.0 to 15.0 GHz. Must be
lower than the value for
LO2.
lower than the value for
LO2.
LO2 (GHz)
Sets the higher oscillator frequency, in GHz, of
the LNB. In a single band oscillator, set this
value to 0.0.
the LNB. In a single band oscillator, set this
value to 0.0.
0.0 to 15.0 GHz. Must be
higher than the value for
LO1.
higher than the value for
LO1.
Crossover (GHz)
This is the crossover frequency, which is an
internal threshold frequency used for selecting
the LO1 or LO2 frequency, depending on the
current Downlink frequency settings. This
option is only used in dual-band LNB
applications.
internal threshold frequency used for selecting
the LO1 or LO2 frequency, depending on the
current Downlink frequency settings. This
option is only used in dual-band LNB
applications.
0.0 to 15.0 GHz. In single-
band LNB applications, set
this value to 0.0.
band LNB applications, set
this value to 0.0.
Satellite
This is the name of the satellite currently
selected. Choose the satellite you want to use
to receive the signal from the list of satellites
available. When you select a satellite, the
orbital position (OrbPos) is displayed. This is
important for automatic switching from one RF
input to another in the event of loss of the
signal, allowing the receiver to acquire an
alternate signal.
selected. Choose the satellite you want to use
to receive the signal from the list of satellites
available. When you select a satellite, the
orbital position (OrbPos) is displayed. This is
important for automatic switching from one RF
input to another in the event of loss of the
signal, allowing the receiver to acquire an
alternate signal.
When the satellite is not
listed, enter the known
orbital position (OrbPos)
of the satellite you want to
use to receive the signal.
listed, enter the known
orbital position (OrbPos)
of the satellite you want to
use to receive the signal.
OrbPos
This is the location in orbit of the satellite
currently being used. The satellite position (in
degrees) in combination with the direction
(either E (East) or W (West)) denotes the
satellite position the dish connected to the
current RF Input should point to. This is used
when the satellite is not available in the look-
up menu list.
currently being used. The satellite position (in
degrees) in combination with the direction
(either E (East) or W (West)) denotes the
satellite position the dish connected to the
current RF Input should point to. This is used
when the satellite is not available in the look-
up menu list.
For manual configuration, simply enter the
location of the satellite using the numerical
keypad. The receiver will not recognize the
satellite name and identify it as Unknown. This
setting is required to resolve any ambiguity
between RF inputs during automatic disaster
recovery.
location of the satellite using the numerical
keypad. The receiver will not recognize the
satellite name and identify it as Unknown. This
setting is required to resolve any ambiguity
between RF inputs during automatic disaster
recovery.
Degrees