2.3 Connection Diagram
The following diagram shows the connection between the
GOT and the microcomputer.
2.3.1
RS-232 cable
Connection diagram
RS-232 connection diagram 1)
(For GT16, GT15, GT14, GT12, GT11, GT105 ,
GT104 )
Example of the case where the DTR/DSR signal is not used
GOT side
* 1
CD/NC
1
RD(RXD)
2
SD(TXD)
3
ER(DTR)
4
SG
5
DR(DSR)
6
RS(RTS)
7
CS(CTS)
8
-
9
*1
GT16: CD, GT15: CD, GT14: NC, GT12: NC, GT11: NC,
GT105 : NC, GT104 : NC
Example of the case where the DTR/DSR signal is used
GOT side
* 1
CD/NC
1
RD(RXD)
2
SD(TXD)
3
ER(DTR)
4
SG
5
DR(DSR)
6
RS(RTS)
7
CS(CTS)
8
-
9
*1
GT16: CD, GT15: CD, GT14: NC, GT12: NC, GT11: NC,
GT105 : NC, GT104 : NC
2 - 6
2. MICROCOMPUTER CONNECTION (SERIAL)
2.3 Connection Diagram
RS-232 connection diagram 2)
(For GT1030, GT1020)
Example of the case where the DTR/DSR signal is not used
Host side
FG
SD(TXD)
RD(RXD)
RS(RTS)
SG
Example of the case where the DTR/DSR signal is used
CS(CTS)
-
-
ER(DTR)
Host side
FG
SD(TXD)
RD(RXD)
DR(DSR)
SG
RS-232 connection diagram 3)
(For GT1030, GT1020)
ER(DTR)
Connection diagram for connecting GT10-C30R2-6P to GT1030 or GT1020
RS(RTS)
CS(CTS)
5V
GOT side
(terminal block)
SD
RD
ER
DR
SG
RS
CS
NC
NC
GOT side
(terminal block)
SD
RD
ER
DR
SG
RS
CS
NC
NC
Unfastened cable color of
GT10-C30R2-6P
Brown
Red
Blue
Yellow
Green
Purple
Host side
RD(RXD)
SD(TXD)
RS(RTS)
CS(CTS)
SG
-
-
ER(DTR)
FG
Host side
RD(RXD)
SD(TXD)
DR(DSR)
ER(DTR)
SG
RS(RTS)
CS(CTS)
5V
FG
n+1th GOT side
(terminal block)
SD
RD
ER
DR
SG
RS
CS
NC
NC