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7.4. MMI menu:
Options list or C M information.
It can appear a first information line followed by the list
of options with a number. The last option (0.Quit) goes
to the precedent menu. If the information to show
is longer than the display size, push
of the text.
7.5. MMI Enquiry:
C M's data introduction (example
insert PIN). Look at point 6.5.
7.6. Enter User Input:
C M's data introduction.
8. MEMORY
- utomatic save: 30 minutes after the last button
is pressed, the current data will be stored in the
module.
8.1. Save Configuration:
Stores current programming.
8.2. Restore Configuration:
stored in the unit to be recovered.
8.3. Save Configuration, Device to UCF 300:
enables the configuration stored to be saved with an
identifying name in one of the 26 memories of the
UCF 300.
8.4. Load Configuration, UCF 300 to Device:
ecovers the data in one of the UCF 300's memories
with data recorded from an STT for cloning on another
STT-TWIN 8000.
I
RF LEVEL DJUSTMENT
1.
Remove the coaxial bridge from the RF channel
output (8) of module 1 beside the power source.
2.
djust the output level to 75 dBµV via UCF 300
(see point 2 Programming).
3.
Connect the 75
axial bridge again.
4.
Taking the measurement at the SH or S C amplifier
output, adjust the levels of the other modules so that
they are equalised to the level of module 1,
which has already been adjusted.
5.
djust the amplifier gain, taking into account its
maximum output level and the reduction according
to the number of the channels in the installation,
as shown in Table 3.
Tab. 3
Number of
2 4
channels COFDM
Reduction of the
maximum output
3 6
level (dB)
I
LED FUNCTIONS
Status LED:
G
Green color: Tuner tuned
G
Yellow color: Signal problems
G
to read the rest
Enables the configuration
5
6
8 16 24 32 64
7
8
9 12 14 15 18
– Unsyncronized tuner.
– Program not found.
– Exceeded output BW > 92%.
– Out RF: OFF.
Red color: Unit failure
G
Communication LED: Yelow: waiting for data.
G
I
LNB CONFIGUR TION
The LNB function allows SETTINGt the voltage, polarity
G
and satellite of the 1 st IF input (number 1 on page 2).
In case of need to supply an LNB or an amplifier, use the
G
LNB polarity parameter with the suitable voltage.
To set the polarity of a universal / twin / quad / octo and
G
monoblock LNB use LNB polarity parameter.
To set the satellite of a monoblock LNB, use Satellite
G
DiSEqC parameter.
To configure a multiswitch, select the satellite (if required)
G
using Satellite DiSEqC parameter, and polarity with LNB
Polarity parameter or DiSEqC Polarity according to the
characteristics of the multiswitch.
If the input signal comes from the input loop of another
G
equipment, we recommend setting the LNB Polarity to 0V.
If the equipment is not configuring any DiSEqC device,
G
we recommend keeping the two DiSEqC parameters OFF.
I
F Qs:
How many programs fit on an RF, COFDM, UHF,
G
8 MHz channel?
The channel's output capacity is measured in Mbps and
there is a direct relationship between the following:
(see Tab.4)
Modulation: QPSK < 16 Q M < 64 Q M
G
Code Rate FEC:1/2 < 2/3 < 3/4 < 5/6 < 7/8
G
Save interval IG: 1/4 < 1/8 < 1/16 < 1/32
G
(maximum capacity shown in bold).
The number of programs depends on the amount
G
of information contained in each one.
Tab. 4
DVB-T (8MHz)
Modulation Code Rate T u = 1/4
1/2
2/3
QPSK
3/4
5/6
7/8
1/2
2/3
13,27
16 Q M
3/4
14,93
5/6
16,59
7/8
17,42
1/2
14,93
2/3
19,91
64 Q M
3/4
22,39
5/6
24,88
7/8
26,13
16
itrate (Mbps)
T u = 1/8
T u = 1/16 T u = 1/32
4,98
5,53
5,85
6,03
6,64
7,37
7,81
8,04
7,46
8,29
8,78
9,05
8,29
9,22
9,76
10,05
8,71
9,68
10,25
10,56
9,95
11,06
11,71
12,06
14,75
15,61
16,09
16,59
17,56
18,10
18,43
19,52
20,11
19,35
20,49
21,11
16,59
17,56
18,10
22,12
23,42
24,13
24,88
26,35
27,14
27,65
29,27
30,16
29,03
30,74
31,67
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