Mitsubishi GOT1000 Series Connection Manual page 787

(3) In the case of interrupt outputs
The following shows an example of an interrupt output when data are written to the interrupt output
devices (D13 and D14).
(Assuming that "3139
Example: When the number of interrupt data bytes is 2 in format 11
Item
Example: Format 13 (Digital Electronics Corporation's memory link method (extended mode, ASCII code 1:n))
(1) When [Interrupt Data Byte] in "Communication Detail Settings" is set to "1 byte"
(2) When [Interrupt Data Byte] in "Communication Detail Settings" is set to "2 bytes"
Interrupt output
(GOT host)
(3) When [Interrupt Data Byte] in "Communication Detail Settings" is set to "4 bytes"
STX Station No.
0
02 30
H
(H)
19.5.6 Formats 11 to 13 (Digital Electronics Corporation's memory link method)
" is written to D13 and "AA55
H
D13 3139
H
Interrupt
Com-
STX Station No. ESC
mand
0 0
02 30 30 1B 49
H H H H
(H) (L)
This range Sum check is performed.
Com-
STX Station No. ESC
mand
0 0 I
02 30 30 1B 49 30
H H H H H
(H) (L) (H)
Sum check is performed in this range.
Com-
Number of Output
ESC
mand
data value 1
0 I 0 4
30 1B 49 30 34 41
H H H H H H
(L) (H) (L) (H)
Sum check is performed in this range.
" to D14.)
H
Interrupt output
Output Output
value 1 value 2
31 39
H H
Message format
Output
Number of
ETX
data value 1
I 0 1 3 9
30 31 33 39 03
H H H H H H
(H) (L) (H) (L)
Data Output Output
Number value 1 value 2
0 2 3 1 3 9
32 33 31 33 39
H H H H H H
(L) (H) (L) (H) (L)
Output Output
value 2 value 3
A A 5 5 3 1
41 35 35 33 31
H H H H H H
(L) (H) (L) (H) (L)
19.5 Message Formats
Sum
CR LF
Check
9 4
39 44 0D 0A
H H H H
(H) (L)
Sum
ETX CR LF
Check
F 9
03 46 39 0D 0A
H H H H H
(H) (L)
Output Sum
ETX CR
value 4
Check
3 9 E 7
33 39 03 45 37 0D
H H H H H H
(H) (L) (H) (L)
17
18
19
20
21
22
LF
23
0A
H
24
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