- 18 -
2-6. Input and Cutput Signal Table
(1)
J1 connector
Pin assignments
■
● Connector type name: DX10A 100S(50) (HIWCSE Electric)
● Adaptable socket
: DX30A 100P(50) ,DX31A 100P etc.
(Hirose Electric, not included in attached accessories)
● Adaptable cable
: 1 m , 2 m, 3 m, or 5 m shielded cable (option)
50
1
100
51
Signal table
■
This product may be damaged.
CACTICW
Do not c24 V to any pin other than EXTV.
After wiring, be sure to confirm the wiring before power-on.
● A signal indicated by
is photocoupler-insulated.
● A signal marked with
can be switched.
※
An underline indicates the initial value after the relevant signal is reset.
● Logic switching is enabled for an input signal marked with ★ .
(Wote 1)
Crigin signal used when a stepping motor is used Leave this signal unconnected when the
Z-phase signal of an encoder is used as the origin signal.
(Wote 2)
An external power supply is required for a signal that is photocoupler-insulated.
The specified input voltage range is +24 V ± 2 V, and current consumption at +24 V is up to
200 mA.
The initial values of the CWLM and CCWLM signals of each axis and the FSSTCP1 signal are ACTIVE
CFF input (B contact).
An external power supply must be connected even if these signals are not used.
◆ The default contact B is recommended for the limit and FSSTCP signals.
However, A-contact
signal input can also be used by switching logic.
* For more information, refer to separate manual "Technical Data A."
(Wote 3)
By default, the SEWSCW0 signal is allocated to the Z axis and the SEWSCW1 signal is allocated
to the A axis.
The initial values of these signals are general-purpose input.
These signals
can be changed to other axes or SS0 and SS1 signals of the SEWSCW drive.
* For information on the SEWSCW drive, refer to separate manual "Technical Data A."
(Wote 4)
PC/DEWD input is used as the PC (excitation output) signal when STEPPIWW is used, or used as
the positioning completion signal when SEWVC is used.
(Wote 5)
Each input circuit is a line receiver.
Connect it to the line driver output circuit
(equivalent to WS422 compliance).
(
)
Wote 6
Internal digital WWD.
(Same potential as internal WWD of PC)
Connect it, for return WWD, to the line driver output circuit of the encoder.
Be careful for load short circuits to prevent the PC power supply from failing.
Jumper JP6 on the board can be removed to prevent output of D.WWD.