2-3.
SYSTEM CONTROL SYSTEM ADJUSTMENTS
1. Node Unique ID No. Input
Note 1: Perform "1-2. Input of Serial No." if the data on page 13
has been cleared and original node unique ID No. is un-
certain.
Usually, read the data on page 13 before repair, and write
it after repair.
Note 2: If reading/writing data on pages 13, set data: 01 to page:
0, address: 10, and then select pages: 3. By this data set-
ting, the pages 13 can be selected.
After the data reading/writing finished, return the data
on page: 0, address: 10 to "00".
1-1. Input of Company ID
Write the company ID to the EEPROM (nonvolatile memory).
Page
13
Address
04, 05, 06, 07, 08
Input method:
1) Select page: 0, address: 01, and set data: 01.
2) Select page: 0, address: 10, and set data: 01.
3) Select page: 3 (13), and enter the following data.
Note 3: Each time the data is set, press the PAUSE (Write) but-
ton on the adjusting remote commander.
Address
04
05
06
07
08
4) Select page: 0, address: 10, and set data: 00.
5) Select page: 0, address: 01, and set data: 00.
1-2. Input of Serial No.
Write the serial No. and model code to the EEPROM (nonvolatile
memory).
In writing the serial No., a decimal number should be converted
into a hexadecimal number
Page
13
Address
09, 0A, 0B
1) Select page: 0, address: 01, and set data: 01.
2) Read the serial No. from the model name label, and it is as-
sumed to be D
Example: If serial No. is "77881",
D
= 77881
1
3) From Table 6-2-2, obtain D
Example: If D
D
= D
2
1
H
= FE
1
HVR-M15J/M15U/M15N/M15E/M15P/M15C
Data
08
00
46
01
02
.
1
and H
that correspond to D
2
1
= 77881,
1
– 65536 = 12345
D
(decimal)
1
00001 to 65535
65536 to 131071
131072 to196607
196608 to 262143 D
262144 to 327679 D
327680 to 393215 D
393216 to 458751 D
458752 to 524287 D
524288 to 589823 D
589824 to 655359 D
655360 to 720895 D
720896 to 786431 D
786432 to 851967 D
851968 to 917503 D
917504 to 983039 D
983040 to 999999 D
4) Enter H
to address: 09 on page: 13.
1
Example: If H
1
Select page: 0, address: 10, and set data: 01.
Select page: 3 (13), address: 09, and set data: FE, then press
the PAUSE (Write) button.
5) From Table 6-2-3, obtain the maximum decimal number less
than D
, and it is assumed to be D
2
Example: If D
2
D
= 12288
3
6) From Table 6-2-3, obtain a hexadecimal number that corre-
sponds to D
, and it is assumed to be H
3
Example: If D
3
H
= 3000
3
7) Caluculate D
caluculation). (0
D
= D
4
Example: If D
2
D
= 12345 – 12288 = 57
4
8) Convert D
into a hexadecimal number to obtain H
4
6-3-1 "Hexadecimal - decimal conversion table" in 6-3. Ser-
vice Mode)
Example: If D
4
H
= 39
4
9) Enter higher two digits of H
Example: If H
3
Select page: 0, address: 10, and set data: 01.
.
1
Select page: 3 (13), address: 0A, and set data: 30, then press
the PAUSE (Write) button.
10) Enter H
to address: 0B on page: 13.
4
Example: If H
4
Select page: 0, address: 10, and set data: 01.
Select page: 3 (13), address: 0B, and set data: 39, then press
the PAUSE (Write) button.
11) Select page: 0, address: 10, and set data: 00.
12) Select page: 0, address: 01, and set data: 00.
6-41
D
(decimal)
H
(hexadecimal)
2
1
(Service model code)
D
FE
1
− 65536
D
FE
1
− 131072
D
FE
1
− 196608
FE
1
− 262144
FE
1
− 327680
FE
1
− 393216
FE
1
− 458752
FE
1
− 524288
FE
1
− 589824
FE
1
− 655360
FE
1
− 720896
FE
1
− 786432
FE
1
− 851968
FE
1
− 917504
FE
1
− 983040
FE
1
Table 6-2-2
= FE,
.
3
= 12345.
.
3
= 12288,
using following equations (decimal
4
D
225)
4
– D
2
3
= 12345 and D
= 12288,
3
= 57,
to address: 0A on page: 13.
3
= 3000,
= 39,
. (See Table
4