39
•
To use this function, set
REG23:bit 1
of all RS485 multi-dropped modems to 1. And
set all the
RS485 Packet Interval
(
REG07
) to different values more than 1.5 bytes
each. Further set this bit of the modem, the
RS485 Packet Interval
is set to the
longest, to 1.
Bit 1: RS485 collision avoidance
0
Invalid collision avoidance function (default value)
1
Use collision avoidance function
Table 5–24: Collision Avoidance Function
•
Sets to decide whether to use the
collision avoidance function
or not, together with
bit 2.
•
When modem tried to output a
response
or the received data, the modem outputs
only if RS485 line is available at the timeout of
RS485 Packets Interval
(
REG07
).
When RS485 line is not available at the timeout, the modem waits for a line becomes
available and starts re-measurement of its
packet interval
.
•
Set to 1 makes it unable to output neither
response
nor the received data, unless
other modem(s) outputs any data to the RS485 line and
interval time
measuring
becomes effect.
•
Bit 2 is used for the purpose of resolving this problem.
Bit 0: Global addressing command response
0
No P0 response to global addressing command (default value)
1
Respond P0 response to global addressing command
Table 5–25: Global addressing command response
•
Set to decide whether to return “P0”
response
(including “P1” for the
transmit
command
) to the terminal equipment for the
global addressing command
(commands for Addresses 240 to 254).
•
When the
global addressing command
is issued to plural modems, which are
multi-dropped and have the same
global address
on RS485 line, there is a possibility
causing data
collision
on the RS485 line. Unless the
RS485 Packet Interval
is
properly set. This is because all modems return the “P0” (or P1)
response
to the
terminal equipment simultaneously on
default memory setting
. Such potential
problem can be avoided by limiting the modem to output the
response
to the
global
addressing command
is only one.
Summary of Contents for FDL01TU
Page 14: ......
Page 15: ...1 1 SECTION 1 INTRODUCTION ...
Page 19: ...5 2 SECTION 2 SYSTEM INSTALLATION ...
Page 25: ...11 3 SECTION 3 SYSTEM OPERATION ...
Page 34: ...20 ...
Page 35: ...21 4 SECTION 4 FUNCTION CONTROL METHODS ...
Page 41: ...27 5 SECTION 5 MEMORY REGISTER DESCRIPTION ...
Page 56: ...42 ...
Page 57: ...43 6 SECTION 6 COMMAND SET DESCRIPTION ...
Page 76: ...62 ...
Page 77: ...Futaba Corporation Rev 020323 01 7 APPENDIX 7 SECTION ...
Page 82: ...68 7 4 Dimensions 7 4 1 FDL01TU 7 4 2 Communication Cable ...