Alignments
EN 118
LX7500R
8.
8.2
Reprogramming Procedure of NVM on the
Microprocessor Sub PCB
The NVM, item 7808, on the Microprocessor Sub board
contains the following factory settings:
1.
Clock correction factor
2.
AFC reference value
3.
Slash version
The settings 1,2 and 3 are stored in the NVM during the
production of the analogue board.
The slash version is stored at the end of the production line of
the set.
In case of failure, the NVM must be replaced by an empty
device. By way of commands via the Diagnostic Software or via
ComPair, the factory settings must be restored in the NVM.
8.2.1
Clock Correction Adjustment
To guarantee an exact function of the real time clock, an
adjustment of the clock frequency is possibe. The adjustment
value is stored in the NVM.
Procedure:
•
put the set in service command mode
•
execute command 1117 to initiate that a signal with 32768
Hz is available on pin 3 of connector 1988
example:
DD:>1117
•
measure the frequency fmeas of the Clock Crystal with an
accuracy of 0.1 Hz.
•
Calculate the parameter to be entered: 32768/fmeas * 106
•
Normally the parameter must be between 999902 and
1000097. If the parameter and therefore the frequency of
the crystal is outside this range, the crystal must be
replaced.
•
Execute command 1118 with the parameter as input
example:
DD:>1118 1000023
8.2.2
AFC Reference Voltage Tuner
This function stores the reference voltage for the tuner in the
NVM. Before this value can be stored, the AFC adjustment,
described in the adjustment instructions of the analogue board,
must be carried out.
Procedure:
•
Adjust AFC circuit
•
Calculate the reference value
•
Execute command 1119 and use the calculated reference
value as parameter example: DD:>1119 128
8.2.3
Slash Version
The slash version is stored with command 1217, followed by
the slash version as parameter.
The slash versions used in LX7500R are the following:
•
LX7500R/01: 35
•
LX7500R/05: 36
•
LX7500R/04: 39
•
LX7500R/69: 40
Example:
DD:>1217 35
Reset of Slash Version
Use command 1115 to reset the analogue board to the default
setting.
Procedure:
•
Put the set in DSW command mode
•
Execute command 1115 with the following parameters:
DD:> 1115 w 0xAE 2 0xD0 0x00
•
Leave the DSW command mode and start up the set in
application mode
No background is visible on the TV screen. The analogue
board is ready to accept the appropriate slash version
8.3
Rework Procedure IEEE Unique Number
8.3.1
Scope:
The procedure describes how to upgrade sets with a unique
number after repair. This unique number is stored in the
NVRAM (item 7809) of the digital board at the end of the
production line.
This procedure is only valid or necessary when:
•
The digital board is replaced
•
NVRAM on the digital board is replaced
•
NVRAM is cleared
In all other cases the repaired set retains its unique number.
The procedure defines several means to re-assure the unique
number depending on the possibilities of repair or the state the
faulty set is in.
8.3.2
Handling:
State of original (defective) board:
1.
The digital board starts up in Diagnostics Mode: follow
procedure A to retrieve the valid unique number
2.
The digital board does NOT start up in Diagnostics Mode:
follow procedure B.
8.3.3
Procedure A
1.
Connect defective digital board to PC via serial cable (3122
785 90017)
2.
start up hyper terminal or any other serial terminal via the
correct settings (DSW command mode interface)
3.
read out existing unique number via nucleus 1208
example:
DD:> 1208
120800: DV Unique ID = 00D7A1FC6C Test OK @
4.
note read out
5.
program new digital board via nucleus 1207
example:
DD:> 1207 00D7A1FC6C 120700: Test OK @
The set has now the original unique number
8.3.4
Procedure B
1.
Note the serial number of the set example:
VN050136130156
–
VN = production centre (VN....Szekesfehervar).
According to UAW-500: V=22 and N=14