User's Manual
45
45
english
Function Description
Examples for protocol sequence
Example No. 7
Store Mixed Data
Access program
For configuring with
double bit header
and 8-byte buffer
size!
Storing a program for reading out 3 data records:
1st data record Start address 5 Number of bytes 7
2nd data record Start address 75 Number of bytes 3
3rd data record Start address 112 Number of bytes 17
Total number of bytes exchanged in the operation: 27 bytes
All 104 bytes are written for the programming.
Host:
1.) Process subaddresses of the output buffer in the
order shown:
BIS L-60_2 Identification System:
2.) Process subaddresses of the input buffer:
01
Hex
Command designator 06
Hex
02
Hex
Program number 01
Hex
00
Hex
/07
Hex
Set AV-Bit
00
Hex
/07
Hex
Set AA-Bit, invert TO-Bit
3.) Process subaddresses of the output buffer:
4.) Process subaddresses of the input buffer:
01
Hex
1st start address (Low Byte) 05
Hex
02
Hex
(High Byte) 00
Hex
03
Hex
1st number of
bytes
(Low Byte) 07
Hex
04
Hex
(High Byte) 00
Hex
05
Hex
2nd start address (Low Byte) 4B
Hex
06
Hex
(High Byte) 00
Hex
00
Hex
/07
Hex
Invert TI-Bit
00
Hex
/07
Hex
Invert TO-Bit
Continued on next .
L60_2-019_828132_1007-e.p65
46
english46
Function Description
Examples for protocol sequence
Host: BIS L-60_2 Identification System:Example No. 7
Store Mixed Data
Access program
(continued)
For configuring with
double bit header
and 8-byte buffer
size!
5.) Process subaddresses of the output buffer: 6.) Process subaddresses of the input buffer:
01
Hex
02
Hex
2nd number of
bytes
(Low Byte) 03
Hex
(High Byte) 00
Hex
03
Hex
3rd start address (Low Byte) 70
Hex
04
Hex
(High Byte) 00
Hex
05
Hex
3rd number of
bytes
(Low Byte) 11
Hex
06
Hex
(High Byte) 00
Hex
00
Hex
/07
Hex
Invert TI-Bit
00
Hex
/07
Hex
Invert TO-Bit
7.) Process subaddresses of the output buffer: 8.) Process subaddresses of the input buffer:
01
Hex
/02
Hex
Terminator FF
Hex
/FF
Hex
03
Hex
/04
Hex
(not used) FF
Hex
/FF
Hex
05
Hex
/06
Hex
(not used) FF
Hex
/FF
Hex
00
Hex
/07
Hex
Invert TI-Bit
00
Hex
/07
Hex
Invert TO-Bit
Fill all unused start addresses and number of bytes with FFHex! Continued on next .